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1
Garlid, Anders Olav. "Mitochondrial Reactive Oxygen Species (ROS): Which ROS is Responsible for Cardioprotective Signaling?" PDXScholar, 2014. https://pdxscholar.library.pdx.edu/open_access_etds/1641.
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Mitochondria are the major effectors of cardioprotection by procedures that open the mitochondrial ATP-sensitive potassium channel (mitoKATP), including ischemic and pharmacological preconditioning. MitoKATP opening leads to increased reactive oxygen species (ROS), which then activate a mitoKATP-associated PKCε, which phosphorylates mitoKATP and leaves it in a persistent open state (Costa, ADT and Garlid, KD. Am J Physiol 295, H874-82, 2008). Superoxide (O2•-), hydrogen peroxide (H2O2), and hydroxyl radical (HO•) have each been proposed as the signaling ROS but the identity of the ROS responsible for this feedback effect is not known. Superoxide was excluded in earlier work on the basis that it does not activate PKCε and does not induce mitoKATP opening.To further examine the identity of the signaling ROS, respiring rat heart mitochondria were preincubated with ATP and diazoxide to induce the phosphorylation-dependent open state, together with agents that may interrupt feedback activation of mitoKATP by ROS scavenging or by blocking ROS transformations. Swelling assays of the preincubated mitochondria revealed that dimethylsulfoxide (DMSO), dimethylformamide (DMF), deferoxamine, trolox, and bromoenol lactone (BEL) each blocked the ROS-dependent open state but catalase did not interfere with this step. The lack of a catalase effect and the inhibitory effects of agents acting downstream of HO• excludes H2O2 as the endogenous signaling ROS and focuses attention on HO•. In support of the hypothesis that HO• is required, we also found that HO•-scavenging by DMF blocked cardioprotection by both ischemic preconditioning and diazoxide in the Langendorff perfused rat heart. HO• itself cannot act as a signaling molecule, because its lifetime is too short and it reacts immediately with nearest neighbor phospholipids and proteins. Therefore, these findings point to a product of phospholipid peroxidation, such as hydroperoxy-fatty acids. Indeed, this hypothesis was supported by the finding that hydroperoxylinoleic acid (LAOOH) opens the ATP-inhibited mitoKATP in isolated mitochondria. This effect was blocked by the specific PKCε inhibitor peptide εV1-2, showing that LAOOH activates the mitoKATP-associated PKCε. During ischemia, catabolism of mitochondrial phospholipids is accelerated, causing accumulation of plasmalogens and free fatty acids (FA) in the heart by the action of calcium independent phospholipases A2 (iPLA2). We first assessed the role of FAs and hydroxy FAs on mitoKATP opening and cardioprotection. Swelling assays of isolated rat heart mitochondria showed that naturally formed free FAs inhibit mitoKATP opening and that they are more potent inhibitors of the pharmacological open state of mitoKATP than the phosphorylation-dependent open state. That is, sustained mitoKATP opening induced by the phosphorylation-dependent feedback loop is more resistant to FA inhibition than direct mitoKATP opening by a potassium channel opener. Moreover, rat hearts perfused with micromolar concentrations of FA were resistant to cardioprotection by diazoxide or ischemic preconditioning. Racemic bromoenol lactone (BEL), a selective inhibitor of iPLA2, confers protection to otherwise untreated Langendorff perfused hearts by preventing ischemic FA release. To bring this story full circle, BEL blocks protection afforded by preconditioning and postconditioning by preventing the iPLA2-mediated release of FAOOH generated in the conditioned heart. HO• resulting from mitoKATP opening oxidizes polyunsaturated fatty acid components of the membrane phospholipids, resulting in a peroxidized side chain. FAOOH must be released in order to act on the mitochondrial PKCε, and this is achieved by the action of iPLA2. iPLA2 is essential for most modes of cardioprotection because it catalyzes the release of FAOOH. This fully supports the hypothesis that the second messenger of cardioprotective ROS-mediated signaling is hydroperoxy fatty acid (FAOOH), a downstream oxidation product of HO•.
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Todd, Adam. "The role and inhibition of reactive oxygen species (ROS) in psoriasis." Thesis, University of Sunderland, 2009. http://sure.sunderland.ac.uk/3699/.
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Psoriasis is a chronic inflammatory skin disorder that affects around two percent of the population. There are many treatments available for the management of psoriasis including topical therapy, systemic agents and phototherapy. Despite the number of treatments available, however, there are still problems in the management of psoriasis. It is suggested here that the thioredoxin enzyme system may play a role in the pathology of psoriasis. Using specific molecular modelling techniques, a lead compound, RDP00060, was identified as a potential inhibitor of thioredoxin reductase, a key enzyme in the thioredoxin system. In vitro RDP00060 showed moderate inhibitory activity against the thioredoxin enzyme system with an IC50 value of 1.4 mM. RDP00060 also showed powerful activity in an MTT assay using a human papilloma virus immortalized keratinocyte (HPV-16) cell line. To increase the inhibitory activity towards thioredoxin reductase, molecular modelling techniques were used to identify analogues of RDP00060 with a high binding affinity for thioredoxin reductase. Several novel compounds were then synthesized, characterized and evaluated for inhibitory activity towards the thioredoxin system. One of the compounds, N-(3,4-bis-(toluene-4- sulfonylamino)phenyl)-2-furamide (33f) showed good inhibitory activity against the thioredoxin enzyme with an IC50 value of 37 μM. It is anticipated that N-(3,4- bis-(toluene-4-sulfonylamino)phenyl)-2-furamide (33f) binds to thioredoxin reductase irreversibly through a 1,4-conjugate addition mechanism. This compound also showed powerful activity in the MTT assay using an HPV-16 immortalized keratinocyte cell line. Further testing revealed that N-(3,4-bis-(toluene-4-sulfonylamino)phenyl)-2- furamide (33f) also showed apoptotic and antiproliferative properties in human Tcells. As a result of this work, N-(3,4-bis-(toluene-4-sulfonylamino)phenyl)-2- furamide (33f) has been selected for further investigation as a potential antipsoriatic agent.
3
Liu, Bin. "P53 AND REACTIVE OXYGEN SPECIES: A CONVOLUTED STORY." UKnowledge, 2007. http://uknowledge.uky.edu/gradschool_theses/450.
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The tumor suppressor p53 has a close relation with reactive oxygen species (ROS). As an indispensable component of the cellular redox system, ROS not only have been established to be involved in p53-dependent apoptosis, but also regulate p53 activity. Recent studies revealed several novel actions of p53, such as transactivation of antioxidative proteins, mitochondria translocation and inhibition of glycolysis. The fate of cells where p53 signaling pathways are initiated is either survival or death. In this review, we examine the hypothesis that ROS regulate cell fate through p53, in a way that physiological ROS levels trigger the protective pathways, while p53 behaves more like a cell killer under cytotoxic oxidative stress.
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Hinchy, Elizabeth. "How cellular ATP/ADP ratios and reactive oxygen species affect AMPK signalling." Thesis, University of Cambridge, 2017. https://www.repository.cam.ac.uk/handle/1810/270029.
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Mitochondria are key generators of cellular ATP, vital to complex life. Historically, mitochondrial generation of reactive oxygen species (ROS) was considered to be an unregulated process, produced by dysfunctional mitochondria. More recently, mitochondrial ROS generated by complex I, particularly by the process of reverse electron transfer (RET), has emerged as a potentially biologically relevant signal that is tightly-regulated and dependent on mitochondrial status. ROS production by RET is reported to play a role in the innate immune response and lifespan extension in fruit flies. One way in which mitochondrial ROS may behave as a signal is by altering the activity of AMP-activated protein kinase (AMPK), a key metabolic sensor and regulator of cell metabolism, which is activated when cellular ATP levels decrease during energy demand. Mitochondria can signal to AMPK via the magnitude of the cellular ATP/AMP and ATP/ADP ratios, which alter in response to mitochondrial function. Our view is mitochondria may also signal to AMPK via ROS. Important studies have helped to clarify the role of exogenous or cytosolic ROS in AMPK regulation. However, the effects of mitochondrial ROS on AMPK activity, specifically that generated by complex I, remain unclear and is the main focus of this thesis. I characterized the effects of exogenous H2O2 on cellular AMPK activity, ATP/ADP ratios and cellular redox state in a cell model. I then compounded this with selective mitochondria generated ROS by the mitochondria-targeted redox-cycler, MitoParaquat (MPQ). AMPK activity appeared to correlate with decreasing cell ATP/ADP ratios, indicating that both sources of ROS primarily activate AMPK in an AMP/ADP-dependent mechanism. In parallel, I developed an approach for analyzing the redox state of candidate proteins, an important step in determining if a protein is directly regulated by ROS. I also initiated development of a cell model for studying the downstream effects of mitochondrial ROS production by RET, by expressing alternative respiratory enzymes in a mammalian cell line.
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Whittington, Kate. "Origin and effects of reactive oxygen species (ROS) in human sperm suspensions." Thesis, University of Bristol, 1997. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.388160.
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Phillips, Darren C. "Ceramide and reactive oxygen species (ROS) as signal transduction molecules in inflammation." Thesis, Aston University, 2003. http://publications.aston.ac.uk/12363/.
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The application of synthetic ceramides to U937 monocytes for short (2 hours) or long (16 hours) treatment periods reduced the membrane expression of proteins associated with cell-cell interaction. Furthermore, ceramide treated U937 monocytes demonstrated reduced adhesion to 5 or 24 hour LPS activated human umbilical vein endothelial cells (HUVEC) but not resting HUVEC. Consequently it is hypothesised that the targeted treatment of monocytes from patients with cardiovascular diseases with short chain synthetic ceramide may reduce disease progression. Herein, the anti-inflammatory and immunosuppressant drug, methotrexate, is described to require ROS production for the induction of cytostasis or cytotoxicity in U937 monocytes and Jurkat T-cells respectively. Further, ROS are critical for methotrexate to abrogate monocyte interaction with activated HUVEC in vitro. The histological feature of RA of enhanced infiltration, survivability and hyporesponsiveness of T-cells within the diseased synovium has been suggested to arise from aberrant signalling. No difference in the concentrations of endogenous T-cell ceramide, the related lipid diacylglycerol (DAG) and cytosolic peroxide ex vivo was observed. TCR activation following PHA exposure in vitro for 72 hours did not induced maintained perturbations in DAG or ceramide in T-cells from RA patients or healthy individuals. However, T-cells from RA patients failed to upregulate cytosolic peroxide in response to PHA, unlike those from normals, despite expressing identical levels of the activation marker CD25. This inability to upregulate cytosolic peroxide may contribute to the T-cell pathology associated with RA by affecting the signalling capacity of redox sensitive biomolecules. These data highlight the importance of two distinctive cellular pools of ROS in mediating complex biological events associated with inflammatory disease and suggest that modulation of cellular ceramides represents a novel therapeutic strategy to minimise monocyte recruitment.
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Nakamura, Yukiko Kawashima. "Lipophilic compound-mediated gene expression and implications for reactive oxygen species (ROS)-related diseases." abstract and full text PDF (UNR users only), 2009. http://0-gateway.proquest.com.innopac.library.unr.edu/openurl?url_ver=Z39.88-2004&rft_val_fmt=info:ofi/fmt:kev:mtx:dissertation&res_dat=xri:pqdiss&rft_dat=xri:pqdiss:3387815.
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Moffat, Caroline S. "Identifying signal transduction components acting downstream of reactive oxygen species (ROS) in Arabidopsis thaliana." Thesis, Durham University, 2007. http://etheses.dur.ac.uk/2570/.
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Traditionally, reactive oxygen species (ROS) have been regarded as toxic by-products of aerobic metabolism. However, in recent years it has become apparent that plants actively produce ROS as signalling molecules. ROS are able to mediate adaptive responses to various environmental stresses as well as processes such as stomatal closure and development. Downstream signalling events that are modulated by ROS include calcium mobilisation, protein phosphorylation and gene expression. This study investigated signalling proteins acting downstream of ROS, in order to understand how ROS are perceived and transduced to elicit such a wide range of responses. To establish a molecular profile provoked by ROS, a microarray experiment of Arabidopsis plants exposed to exogenous H(_2)O(_2) was analysed. Of the 895 differentially expressed transcripts, a substantial proportion had predicted functions in cell rescue and defence, including heat shock, disease resistance and antioxidant genes. Genes encoding candidate H(_2)O(_2) signalling components were identified from this microarray experiment and their H(_2)O(_2) - induced expression was verified by northern RNA-blot analysis. Two transcription factors of the ethylene response factor (ERF) family (AtERFS [At5g47230]) and AtERF6 [At4g17490])and an ankyrin protein kinase (APK [At4g18950]) were selected for further study. Northern blot analysis and comparison with publicly available transcriptome data sets demonstrated that the expression of these three genes was induced by various stress treatments, such as UV-B irradiation, cold and elicitor challenge. To unravel the potential in vivo function of these proteins, loss- and gain-of-function lines were generated and analysed. No abnormal plant phenotypes were observed during development or in response to the stress and hormone treatments tested. A high level of functional redundancy may exist between AtERFS and AtERF6. Microarray analyses were performed on the over-expression lines. Genes that were differentially regulated in APK over-expressor lines gave no indication of its function. However, the microarray analyses revealed that AtERFS and AtERF6 have roles in the plant pathogen defence response, since their over-expression induced defence gene expression. Analysis of cis elements in the promoters of the ERF-differentially regulated genes revealed that both transcription factors displayed GCC box binding activity. However, the GCC box was not over-represented in the promoters of H202-differentially regulated genes, which suggests that this element has a ROS independent regulation.
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Mori, Yoshifumi. "OGG1 protects mouse spermatogonial stem cells from reactive oxygen species in culture." Doctoral thesis, Kyoto University, 2021. http://hdl.handle.net/2433/263547.
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Yuan, Long. "Role of Reactive Oxygen Species and Therapeutic Implications in BRAF Mutant Melanoma." University of Cincinnati / OhioLINK, 2020. http://rave.ohiolink.edu/etdc/view?acc_num=ucin1595847645348909.
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Liu, Jing. "Application of Novel ROS sensitive Prodrug on Sunscreen." University of Cincinnati / OhioLINK, 2020. http://rave.ohiolink.edu/etdc/view?acc_num=ucin1595846650432163.
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Sun, Xiaolong. "Design, synthesis and evaluation of fluorescent sensors for the detection of saccharide and reactive oxygen species." Thesis, University of Bath, 2015. https://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.669030.
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Reactive oxygen species (ROS) and reactive nitrogen species (RNS), saccharide (i.e. monosaccharide, disaccharide and polysaccharide), are continuously generated, transformed and consumed in the living systems. As a consequence of their significant value towards human health in aerobic life, it is very important and has drawn much attention in the chemical and biological sensing of the species. It is our long-standing interest in the recognition of monosaccharide (e.g. glucose) through exploration of various boronate-based fluorescence probes, thus, based on the previous work, we started on the design, synthesis and evaluation of novel fluorescent chemosensors for breakthrough discoveries in the detection of saccharide and ROS selectively and specifically, which are made up of different receptors and diverse singaling fluorophores, e.g. anthracene, coumarin, fluorescein, naphthalimine. Firstly, “integrated” and “insulated” boronate-based fluorescent probes (2-naphthylboronic acid and N-Methyl-o-(aminomethyl)phenylboronic acid) have been evaluated for the detection of hydrogen peroxide in the presence of saccharides (i.e. D-fructose). In the presence of D-fructose the initial fluorescence intensity of the “insulated” system is much higher and produces a blue visible fluorescence. Based on the experimental observation above in the boronate-based systems (i.e. B-N bond protection), a new water-soluble boronate-based fluorescent probe was designed and evaluated for the detection of peroxynitrite (much stronger oxidant) in the presence of D-fructose. The enhanced fluorescence of probe when bound with D-fructose was switched off in the presence of peroxynitrite. While, other reactive oxygen/nitrogen species led to only slight fluorescence decreases due to protection by the internal N-B interaction. The interaction of probe with D-fructose not only strengthens the fluorescence signal, but also protects the boronic acid to oxidation by other ROS/RNS. Therefore, under conditions generating various ROS/RNS, the boronate-based sugar complex preferentially reacts with peroxynitrite (ONOO−). The sensor displays good “on-off” response towards peroxynitrite both in RAW 264.7 cells and HeLa cells. A new ICT (internal charge transfer) sensing system was developed for the detection of hydrogen peroxide and peroxynitrite. The probe displayed an enhanced fluorescence change when bound with D-fructose due to the prolonged N-B distance. The fluorescence intensity of the probe dropped down both in the detection of H2O2 and ONOO− which was attributed to the oxidation of arylboronic acid even though in the presence of D-fructose. Using the self-assembly of aromatic boronic acids with Alizarin Red S (ARS), we developed a new chemo/biosensor for the selective detection of peroxynitrite. Phenylboronic acid, benzoboroxole and 2-(N, N-dimethylaminomethyl) phenylboronic acid were employed to bind with ARS to form the complex probes. In particular the ARS-NBA system with a high binding affinity can preferably react with peroxynitrite over hydrogen peroxide and hypochlorite due to the protection of the boron via the solvent-insertion B-N interaction. Our simple system produces a visible naked-eye colorimetric change and on-off fluorescence response towards peroxynitrite. By coupling a chemical reaction that leads to an indicator displacement, we have developed a new sensing strategy, referred to herein as RIA (Reaction-based Indicator displacement Assay). Next, we developed a novel class of simple materials for sensing monosaccharides by the functionalization of graphene oxide (GO) with boronate-based fluorescence probes. The composite materials were characterized by atomic force microscopy, Raman spectroscopy, and UV-vis/fluorescence spectroscopy. The strong fluorescence of the fluorescence probes is quenched in the presence of GO through fluorescence resonance energy transfer (FRET). The BA@GO composite sensors formed provide a useful platform for fluorogenic detection of monosaccharides based on the strong affinity between the boronic acid receptor and monosaccharides. The BA@GO composite sensor displayed a “turn-on” fluorescence response with a good linear relationship towards fructose over a range of other saccharides. Next, new water-soluble copper (II) complex fluorescence probes were developed and evaluated for the detection of nitric oxide and nitroxyl in a physiological condition. A significant fluorescence “off-on” response displayed by using the copper (II) complex for the detection of NO and HNO (Na2N2O3 as a donor). Under pathological conditions generating various ROS/RNS, the copper (II) complex fluorescent probe preferentially reacts with NO/HNO over other reactive oxygen species. The dual-analyte recognitions of the simple, sensitive probe were further applied in living cell for the exogenous NO/HNO. In the following work, we synthesised a phosphorous-based compound for the detection of HNO which derived from Angeli’s salt in a biological condition. Significantly, it displayed a high sensitivity and selectivity toward HNO over other various ROS species, especially NO since they have a similar chemical property. The underlying mechanism was attributed to the cleavage of C-O bond induced by Staudinger Ligation.
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Eblin, Kylee Elaine. "Arsenical-induced Reactive Oxygen Species Lead to Altered Cellular Signaling and Phenotypic Alterations in Human Bladder Cells." Diss., The University of Arizona, 2008. http://hdl.handle.net/10150/195706.
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Arsenical-induced carcinogenesis in human bladder has been established through epidemiological evidence, but unfortunately, no mode of action had been determined for this phenomenon. UROtsa cells, a normal, immortalized cell culture model of human urothelium does not form tumors when injected into immuno-compromised mice nor does it have anchorage-independent growth. UROtsa cells were shown to be malignantly transformed following low-level exposure to both arsenite [As(III)] and its more toxic metabolite, monomethylarsonous acid [MMA(III)] providing additional models for studying arsenical-induced carcinogenesis of the bladder. These transformed cell lines allow researchers the ability to investigate the process of urothelial tumorigenesis at multiple time points of arsenical exposure. In the studies discussed here in, environmentally relevant levels of As(III) and MMA(III) were chosen. UROtsa cells were exposed to As(III) and MMA(III) both acutely and chronically to begin investigations into signaling pathway alterations that can lead to carcinogenesis in the human bladder upon exposure to arsenicals. In acute studies, it was shown that As(III) and MMA(III) generate oxidative stress response in UROtsa at low, environmentally relevant levels. The ROS generated by MMA(III) led to an increased 8-oxo-dG formation after 30 min, supporting the importance of MMA(III) in damage caused in the bladder by arsenicals. Because ROS has been linked to MAPK signaling, it was shown that 50 nM MMA(III) and 1 µM As(III) induce MAPK signaling following acute exposures and this increase is dependent on the production of ROS.Next, it was necessary to begin to look at changes that occur during transformation of UROtsa with MMA(III). Chronic exposure to 50 nM MMA(III) constitutively increases the amounts of EGFR, activated Ras, and COX-2 protein in MSC cells. Chronic upregulation of COX-2 in MSC52 cells is due to increased levels of ROS. Phenotypic changes seen in MSC52 cells (hyperproliferation and anchorage independent growth) are dependent on the secondary generation of excess ROS in MSC52 cells. These data clearly present evidence supporting a role for ROS in both acute and chronic toxicities associated with low-level arsenical exposure, and gives evidence that ROS are important in cellular transformation following MMA(III) exposure.
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Tran, Bich-Thu [Verfasser]. "Roles of neutrophil NADPH oxidase derived reactive oxygen species (ROS) in innate responses / Bich Thu Tran." Greifswald : Universitätsbibliothek Greifswald, 2012. http://d-nb.info/1024933253/34.
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Takemoto, Kenji. "Necrostatin-1 protects against reactive oxygen species (ROS)-induced hepatotoxicity in acetaminophen-induced acute liver failure." Kyoto University, 2015. http://hdl.handle.net/2433/195964.
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Kenji Takemoto, Etsuro Hatano, Keiko Iwaisako, Masatoshi Takeiri, Naruto Noma, Saori Ohmae, Kan Toriguchi, Kazutaka Tanabe, Hirokazu Tanaka, Satoru Seo, Kojiro Taura, Keigo Machida, Norihiko Takeda, Shigehira Saji, Shinji Uemoto, Masataka Asagiri, Necrostatin-1 protects against reactive oxygen species (ROS)-induced hepatotoxicity in acetaminophen-induced acute liver failure, FEBS Open Bio, Volume 4, 2014, Pages 777-787, ISSN 2211-5463Kyoto University (京都大学)
0048
新制・課程博士
博士(医学)
甲第18678号
医博第3950号
新制||医||1007(附属図書館)
31611
京都大学大学院医学研究科医学専攻
(主査)教授 松原 和夫, 教授 渡邊 直樹, 教授 一山 智
学位規則第4条第1項該当
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Abdul, Salam Safnas Farwin. "Biochemistry of Reactive Oxygen Species in Selective Cancer Cell Toxicity and Protection of Normal Cells." University of Cincinnati / OhioLINK, 2017. http://rave.ohiolink.edu/etdc/view?acc_num=ucin1511880706270521.
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Alamu, Olufemi Akinyinka. "Differential toxicity of two murine endothelial cells to ROS duress: Understanding oxidative stress-induced blood-brain barrier dysfunction." University of the Western Cape, 2020. http://hdl.handle.net/11394/7876.
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Philosophiae Doctor - PhDThe blood-brain barrier (BBB) is a critical interface between the blood circulation and brain tissue which performs critical selection of circulating molecules that gain access to the brain tissue. Its unique ability to adjust to changes in the constituents of the blood circulation confer in the BBB a dynamic nature enabling changes in its properties to suit the homeostatic needs of the brain. Dysfunction of the BBB has been established to be pivotal to the initiation and/or maintenance of an array of neurological disorders, most of which involve the production of excess reactive oxygen species (ROS) and oxidative stress in their pathophysiology. Thus, clinical trials of exogenous antioxidant agents have been proposed and initiated, with most results being inconclusive. Extensive studies of the impact, capacity and plasticity of endogenous antioxidants in the cells that constitute the blood-brain barrier, especially the brain endothelial cells, therefore, became necessary for the rational choice, timing, and the mode of application of antioxidants in the management of oxidative stress-mediated neurological diseases.
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Malcomson, Elizabeth. "Reactive Oxygen Species (ROS) Up-regulates MMP-9 Expression Via MAPK-AP-1 Signaling Pathway in Rat Astrocytes." Thesis, Université d'Ottawa / University of Ottawa, 2011. http://hdl.handle.net/10393/19828.
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Ischemic stroke is characterized by a disruption of blood supply to a part of the brain tissue, which leads to a focal ischemic infarct. The expression and activity of MMP-9 is increased in ischemic stroke and is considered to be one of the main factors responsible for damages to the cerebral vasculature, resulting in compromised blood-brain barrier (BBB) integrity. However, the regulatory mechanisms of MMP-9 expression and activity are not well established in ischemic stroke. Since hypoxia/ischemia and reperfusion generates reactive oxygen species (ROS), I hypothesize that ROS is one of factors involved in up-regulation of MMP-9 expression in brain cells and ROS-mediated effect may occur via MAPK signaling pathway. My study has provided the evidence that ROS is responsible for an increase in MMP-9 expression in astrocytes mediated via MAPK-AP1 signaling pathway. Preliminary studies with an in vitro model of the BBB suggest that inhibition of MMP-9 is a critical component of reducing ROS-induced BBB permeability.
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Gauron, Carole. "Rôle de l'apoptose et des ROS (Reactive Oxygen Species) dans les premières étapes de la régénération chez l'adulte." Paris 7, 2014. http://www.theses.fr/2014PA077208.
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Nous avons utilisé la régénération de la nageoire caudale du poisson zèbre comme modèle physiologique pour comprendre le rôle des cellules apoptotiques dans le recrutement des cellules souches chez l'adulte. Peu de temps après l'amputation, les cellules formant le moignon répondent à la blessure par dédifférenciation, en acquérant une identité de cellule progénitrice. Nous avons récemment identifié la mort cellulaire et les espèces réactives de l'oxygène (ou ROS, pour Reactive Oxygen Species) comme étant des signaux précoces régulés après blessure et amputation. La cicatrisation induit une mort cellulaire rapide et locale, tandis que l'amputation induit une seconde vague d'apoptose, spécifique de la régénération. Nous avons ensuite posé la question de la voie de signalisation engagée par les cellules apoptotiques, et un criblage chimique nous a permis d'identifier un signal purinergique. Par ailleurs, l'inhibition de la régénération par inhibition de l'apoptose peut être restaurée par de l'adénosine exogène. De façon surprenante, l'adénosine seule est suffisante pour augmenter le nombre de cellules progénitrices ainsi que pour stimuler la régénération. Afin de mieux comprendre la diffusion du signal apoptotique in vivo, nous avons mis au point des outils optogénétiques. Ces systèmes nous permettent d'induire l'apoptose et suivre sa progression in vivo. Combiné à des senseurs physiologiques fluorescents, ces outils nous permettent d'étudier de façon dynamique les effets de l'apoptose sur les cellules avoisinantesWe used regeneration of the zebrafish caudal fin as a physiological model to understand the role of apoptotic cells in stem cell recruitment in adult. Shortly after amputation, cells from the stump respond to injury by dedifferentiating and acquiring a progenitor identity. We recently identified cell death and ROS signalling as early events regulated after healing and amputation. Wound healing induces fast local cell death, while amputation induces a second round of apoptosis, specific of the regeneration. We then ask for the signalling pathway engaged by apoptotic cells and chemical screening allows us to identify a purinergic signalling. Moreover, the inhibition regeneration by inhibition of apoptosis could be rescued by exogenous adenosine. Surprisingly, adenosine alone is sufficient to enhance the number of progenitor cells and to stimulate fin regeneration. To better understand the spreading of apoptosis signalling in vivo, we implemented optogenetic tools. This system allows us to induce apoptosis and follow its progression in vivo. Combined with physiological fluorescent sensors, this allows us to investigate the dynamical effects of apoptosis on neighbouring cells
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Pond, Bethany Leigh. "Effects of flow on reactive oxygen species production in brain versus aortic endothelial cells| The source of ROS generation." Thesis, State University of New York at Buffalo, 2015. http://pqdtopen.proquest.com/#viewpdf?dispub=1600812.
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Endothelial cells are a vital region in the pathophysiology of the vasculature because it is the interface between blood flow and the vessel. One way that the structure of the vessels wall can change is by the accumulation of reactive oxygen species (ROS), which has been correlated to aneurysm formation. Four main ROS sources in endothelial cells are: NADPH oxidase, mitochondria electron transport chain, eNOS uncoupling, and xanthine oxidase. Endothelial cells are an essential component of vasculature that has distinct functions and morphology. The aorta and brain arteries are highly populated by endothelial cells but the morphology and cellular signaling has been shown to be different. This study focuses on the difference between brain and aorta ROS production and how flow affects ROS. Joeseph Moran-Guiati and Jason Kushner provided the brain and aortic endothelial cultures for these studies. NADPH oxidase complex is the main contributor in both cell types but more in brain. Surprisingly, both cell types contain approximately the same number of NOX subunits, suggesting that the difference in ROS production is dependent on how activated these subunits are. Mitochondrial ROS was only significantly generated in brain cells and is verified because brain endothelium contains higher numbers of mitochondria. Both uncoupling of eNOS and xanthine oxidase did not contribute to ROS generation in static cultures. ROS production increased even further in both cell types when cells were exposed to flow and even higher in brain, suggesting that flow effects ROS generation. These results provide useful information in the difference between ROS generation and how it can be harmful in possibly causing intracranial aneurysm formation.
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Lucas, Stephen Marc. "Valproic Acid Leads to an Increase in ROS Generation by Inhibiting the Deacetylation of Mitochondrial SOD." BYU ScholarsArchive, 2020. https://scholarsarchive.byu.edu/etd/9247.
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Valproic Acid Promotes Acetylation of Superoxide Dismutase-2 During Neurogenesis. Valproic acid (VPA) is a known developmental toxicant associated with a high prevalence of neural tube defects (NTD). The mechanism of VPA-induced NTD is unclear, but oxidative stress may be implicated. To understand how embryotoxic oxidative stress may occur, we measured superoxide dismutase (SOD) activity following VPA treatment in the embryonic pluripotent P19 mouse carcinoma cell line. In undifferentiated P19 cultures treated with VPA (5 mM), dichlorofluorescein fluorescence increased 15% compared to untreated controls over 20 min, indicating a modest, yet statistically significant increase in ROS generation. Undifferentiated P19 cells were treated with VPA for 6 h, after which total SOD and mitochondrial SOD (SOD2) activities were measured. VPA treatment decreased total SOD activity by approximately 20% but SOD2 activity was undetectable; but this was not a consequence of changes to SOD (SOD1 or SOD2) protein concentrations. Interestingly, glutathione redox state increased from -262 mV to -245 mV after a 6 h treatment with VPA, indicating significant oxidation of the cellular redox environment. Measurement of mitochondrial superoxide levels showed an increase following VPA treatments. While it is unlikely that VPA works directly as an oxidant, these data suggest that VPA may promote oxidative stress through an alternative means, such as via the inhibition of SOD activity and thus, allow for an increase in ROS. Importantly, VPA is a known deacetylase inhibitor, and SOD2 function is regulated by acetylation. As such, we evaluated the acetylation state of SOD2 to determine potential disruption via acetylation. Treated undifferentiated P19 cells showed a significant increase in SOD2 acetylation. However, in fully differentiated P19-derived neurons, cells showed no such SOD2 acetylation. Additionally, pretreatment with dithiole-3-thione (D3T), a Nrf2 activator of the antioxidant response, attenuated VPA-induced mitochondrial ROS production and SOD2 acetylation and improved SOD2 activity, suggesting Nrf2 as a potential means to reduce VPA-mediated oxidative stress. To evaluate the effects in the embryo proper, gestational day 8 mouse embryos were treated with VPA in culture for 6 h. Similar to P19 cells, VPA-treated neurulating embryos showed significant SOD2 acetylation and a concomitant decrease in total SOD activity. These data support a similar consequence of VPA-induced oxidative stress in embryos as is demonstrated in our cellular model. Since no SOD2 acetylation is observed in differentiated neurons and VPAinduced SOD2 acetylation occurs more prevalently in undifferentiated/differentiating cells, these data purport means by which VPA preferentially induces oxidative stress in developing systems.
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Hirst, Suzanne Marie. "Anti-inflammatory Effects and Biodistribution of Cerium Oxide Nanoparticles." Thesis, Virginia Tech, 2010. http://hdl.handle.net/10919/76806.
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Cerium oxide nanoparticles have the unique ability to accept and donate electrons, making them powerful antioxidants. Their redox nature is due to oxygen defects in the lattice structure, which are more abundant at the nanoscale. Reactive oxygen species (ROS) are pro-oxidants whose presence is increased during periods of inflammation in the body. ROS damage tissues and cellular function by stripping electrons from proteins, lipids, and DNA. We investigated the ability of nanoceria to quench ROS in vitro and in vivo, and examined the biodistribution and biocompatibility of nanoceria in murine models. Nanoceria was internalized in vitro by macrophages, is non-toxic at the concentrations we investigated, and proteins, mRNA, and oxidative markers of ROS were abated with nanoceria pretreatment in immune stimulated cells as measured by western blot, real time RT PCR, and Greiss assay respectively. In vivo, nanoceria was deposited in the spleen and liver, with trace amounts in the lungs and kidneys as determined by ICP-MS. Using IVIS in vivo imaging, it appeared that nanoceria deposition occurred in lymph tissue. Histology grades show no overt pathology associated with nanoceria deposition, although white blood cell (WBC) counts were generally elevated with nanoceria treatment. Nanoceria suspect particles were seen in lysosomes from kidney samples of IV injected mice in HRTEM images. Lastly, IV nanoceria treatment appears to reduce markers of oxidative stress in mice treated with carbon tetrachloride (CCl4) to induce ROS production. Taken together, our data suggest that nanoceria treatment has the potential to reduce oxidative stress.Master of Science
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Scotcher, Jenna. "Study of the molecular details of p53 redox-regulation using Fourier transform ion cyclotron resonance mass spectrometry." Thesis, University of Edinburgh, 2011. http://hdl.handle.net/1842/8088.
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Reactive oxygen species (ROS) such as hydrogen peroxide (H2O2) and superoxide (O2 • −) have been shown to serve as messengers in biological signal transduction, and many prokaryotic and eukaryotic proteins are now known to have their function controlled via ROS-mediated oxidation reactions occurring on critical cysteine residues. The tumour-suppressor protein p53 is involved in the regulation of a diverse range of cellular processes including apoptosis, differentiation, senescence, DNArepair, cell-cycle arrest, autophagy, glycolysis and oxidative stress. However, little is understood about the specific molecular mechanisms that allow p53 to discriminate between these various different functions. p53 is a multiple cysteine-containing protein and there is mounting evidence to suggest that redox-modification of p53 Cys residues participate in control of its biological activity. Furthermore, p53 activity has been linked to intracellular ROS levels. Fourier transform ion cyclotron resonance mass spectrometry (FT-ICR MS) offers superior mass resolving power and mass measurement accuracy, which is beneficial for the study of intact proteins and the characterisation of their posttranslational modifications (PTMs). The primary goal of the work described in this thesis was to employ FT-ICR mass spectrometry to investigate the molecular details of p53 redox-regulation. The relative reactivity of each of the ten cysteine residues in the DNA-binding core domain of recombinant human p53 was characterised by treatment with the Cys-alkylating reagent N-ethylmaleimide (NEM) under various conditions. A combination of top-down and middle-down FT-ICR MS was used to unambiguously identify Cys182 and Cys277 as sites of preferential alkylation. These results were confirmed by site-directed mutagenesis. Interestingly, Cys182 and Cys277 have previously been implicated in p53 redox-regulation. Alkylation beyond these two residues was found to trigger rapid alkylation of the remaining Cys residues, presumably accompanied by protein unfolding. These observations have implications for the re-activation of mutant p53 with Cys-targeting compounds which result in the death of cancer-cells. Furthermore, the molecular interaction between p53 and the ROS hydrogen peroxide was investigated. p53 was found to form two disulfide bonds upon treatment with H2O2. An enrichment strategy was developed to purify oxidised p53 and top-down FT-ICR mass spectrometry revealed unambiguously that Cys176, 182, 238 and 242 were the oxidised residues. Interestingly, Cys176, 238 and 242 are Zn2+- binding residues suggesting that p53 contains a zinc-redox switch. The mechanism of H2O2 oxidation was investigated, and revealed that oxidation via an alternative pathway results in indiscriminate over-oxidation of p53. Moreover, Cys176, 238 or 242 was shown to act as a nucleophile, and the intracellular antioxidant glutathione (GSH) did not prevent oxidation of the Zn2+-binding Cys residues, providing further evidence for a role in p53 redox-regulation. This study has revealed hitherto unknown details regarding the chemistry of cysteine residues within the important tumour-suppressor protein p53. Furthermore, the analytical power of FT-ICR MS for the study of multiple Cys-containing proteins has been very clearly demonstrated.
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Downing, Trevor. "THE RELATIONSHIP BETWEEN LACTIC ACID, REACTIVE OXYGEN SPECIES AND THE HYPOXIA-INDUCED ACIDIFICATION SEEN IN CHEMOSENSITIVE NEURONS OF THE NUCLEUS TRACTUS SOLITARIUS (NTS)." Wright State University / OhioLINK, 2006. http://rave.ohiolink.edu/etdc/view?acc_num=wright1158455199.
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Silva, Cátia Liliana Marques da. "Dissecting the role of Profilin-1 in microglial cell function: the impact on ROS production." Master's thesis, Universidade de Aveiro, 2015. http://hdl.handle.net/10773/15607.
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Mestrado em Biologia Molecular e CelularMicroglial cells are the resident immune cells of central nervous system (CNS) and the major players in neuroinflammation. These cells are also responsible for surveilling the neuronal microenvironment, and upon injury to the CNS they change their morphology and molecular profile and become activated. Activated status is associated with microglia proliferation, migration to injury foci, increased phagocytic capacity, production and release of reactive oxygen species (ROS), cytokines (pro- or anti-inflammatory) and reactive nitrogen species. Microglia activation is crucial for tissue repair in the healthy brain. However, their chronic activation or deregulation might contribute for the pathophysiology of neurodegenerative diseases. A better understanding of the mechanisms underlying microglial cell activation is important for defining targets and develop appropriate therapeutic strategies to control the chronic activation of microglia. It has been observed an increase in profilin (Pfn) mRNA in microglial cells in the rat hippocampus after unilateral ablation of its major extrinsic input, the entorhinal cortex. This observation suggested that Pfn might be involved in microglia activation. Pfn1 is an actin binding protein that controls assembly and disassembly of actin filaments and is important for several cellular processes, including, motility, cell proliferation and survival. Here, we studied the role of Pfn1 in microglial cell function. For that, we used primary cortical microglial cell cultures and microglial cell lines in which we knocked down Pfn1 expression and assessed the activation status of microglia, based on classical activation markers, such as: phagocytosis, glutamate release, reactive oxygen species (ROS), pro- and anti-inflammatory cytokines. We demonstrated that Pfn1 (i) is more active in hypoxia-challenged microglia, (ii) modulates microglia pro- and anti-inflammatory signatures and (iii) plays a critical role in ROS generation in microglia. Altogether, we conclude that Pfn1 is a key protein for microglia homeostasis, playing an essential role in their activation, regardless the polarization into a pro or anti-inflammatory signature.
As células da microglia são células imunes residentes no sistema nervoso central (SNC) e desempenham um papel importante em processos neuroinflamatórios. Estas células são responsáveis por monitorizar o parênquima neuronal, sendo capazes de responder rapidamente a danos no SNC. Após ativação, a microglia altera a sua morfologia e o seu perfil de expressão de proteínas. O processo de ativação induz a proliferação, migração para a foco da lesão, aumento da capacidade fagocítica, bem como produção e libertação de espécies reativas de oxigénio (EROs), espécies reativas de azoto e citocinas (pro- e anti-inflamatórias). A ativação da microglia é essencial para a reparação de tecidos e a manutenção da homeostasia do SNC. No entanto, a ativação crónica ou a sua desregulação podem contribuir para a patofisiologia de doenças neurodegenerativas. Assim sendo, o estudo dos mecanismos subjacentes à ativação das células da microglia é importante para ajudar a definir e desenvolver estratégias terapêuticas apropriadas para prevenir a sua ativação crónica. Um estudo anterior reportou o aumento dos níveis de RNAm da profilina (Pfn) em células da microglia no hipocampus de ratos após lesão unilateral no córtex entorrinal, sugerindo que a Pfn poderá estar envolvida no processo de ativação da microglia. A Pfn1 é uma proteína de ligação à actina que regula a polimerização do citoesqueleto de actina, sendo importante em diversos processos celulares, incluindo motilidade, proliferação e sobrevivência. Neste trabalho, nós estudamos o papel da Pfn1 na função da microglia. Para tal, utilizamos linhas celulares e células primárias de microglias corticais de rato nas quais reduzimos a expressão da Pfn1 e avaliamos o seu estado de ativação com base em marcadores clássicos de ativação, tais como: fagocitose, libertação de glutamato, produção e libertação de EROs e citocinas pro- e anti-inflamatórias. Nós demonstramos que a Pfn1 (i) se encontra mais ativa após estímulo da microglia por hipoxia, (ii) modula as assinaturas pro- e anti-inflamatória da microglia e (iii) desempenha um papel importante na produção de EROs pela microglia. Nesse estudo concluímos que a Pfn1 é uma proteína importante para o funcionamento da microglia, desempenhando um papel essencial na ativação da microglia, independentemente da polarização pró ou anti-inflamatória.
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King, Laura Emily. "Development and testing of a fluorometric method and instrument based on the 2',7' dichlorodihydrofluorescin assay for the measurement of reactive oxygen species." Thesis, Georgia Institute of Technology, 2012. http://hdl.handle.net/1853/45943.
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An online, semi-continuous instrument to measure both total and gas phase atmospheric reactive oxygen species (ROS) and determine the concentration of ROS in the particle phase (ROS(p)) was developed. This instrument was based on a fluorescent probe for quantifying ambient ROS, specifically 2'7'-dichlorodihydrofluorescin, or DCFH probe. This probe was analyzed for sensitivity to a variety of offline and online parameters for efficient use in a field instrument. The ROS(p) instrument measures the peak light intensity at 530 nm to determine ambient ROS concentrations. ROS particles and gases are collected in a mist chamber in a nebulized mist. The instrument alternates measurements of ROS(p+g), or ROS(tot) by means of an inline filter. Fine (PM₂.₅) (ROS(p) is determined by subtraction of the ROS(g) concentration from the ROS(tot), as the ROS(g) signal could not be excluded. This instrument was tested during the summer (May-July) of 2012 at urban and rural sites in the metropolitan Atlanta and surrounding region. Concentrations of ROS(p) determined from this instrument were often below limit of detection. Average concentrations of ROS(p) were found to be 0.25 nmol/m³ in urban Atlanta (Jefferson St. and Georgia Tech), and 0.15 nmol/m³ in Yorkville, a rural site. A side by side comparison of this method with a filter collection method was made in July. The average ROS(p) offline concentrations were 0.15 nmol/m³. These concentrations were comparable to the online average concentrations of 0.21 nmol/m³ for the same period of time. This average and the majority of the measurements comprising it is dominated by the high limit of detection. The ROS instrument as constructed and operated is an efficient way to conduct ROS(p) measurements at the level of a filter study while reducing the labor intensive filter collection and extraction. In order for this instrument to be successful at measuring ambient ROS in the particle phase, the removal of the gas phase from the current sampling scheme is critical as the ROS(g) concentrations are over 90% of the measured ROS. The system as currently operable is best suited for source measurements, including biomass burning plumes or fresh exhaust to capture immediate formation.
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Baptista-Hon, Daniel Tomas. "Cellular substrates of iron overload cardiomyopathies." Thesis, University of Edinburgh, 2011. http://hdl.handle.net/1842/15878.
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Cardiomyopathies and arrhythmias are major causes of death in untreated hereditary haemochromatosis, acute iron poisoning and during secondary iron overload resulting from repeated blood transfusions in β-thalassaemia. Iron overload cardiomyopathies are associated with systolic and diastolic dysfunction, suggesting that Ca2+ homeostasis is impaired. However, the cellular mechanisms of these dysfunctions are unknown. The data presented in this thesis establishes for the first time iron effects on cardiomyocyte Ca2+ handling, as well as the potential cellular substrates responsible for this impairment during iron overload. Exposure of isolated rat ventricular cardiomyocytes to 200μM iron led to biphasic changes in systolic Ca2+ release. Phase 1: an initial reduction of systolic Ca2+ release followed by; Phase 2: increased Ca2+ release with arrhythmogenic spontaneous Ca2+ release, cell contracture and cell death. There is evidence that Fe2+ enters cardiomyocytes via L-type Ca2+ channels (LTCC) and reduces the Ca2+ trigger. The close apposition of LTCCs to cardiac ryanodine receptors (RyR2) suggests RyR2 may be a first target. Indeed RyR2 activity was drastically reduced on exposure to nanomolar [Fe2+] in single channel studies. Together with evidence that Fe2+ may reduce the Ca2+ trigger from LTCC, this is consistent with iron reducing sarcoplasmic reticulum (SR) Ca2+ release during Phase 1. In Phase 2, the presence of spontaneous Ca2+ release events is consistent with SR Ca2+ overload. Indeed, in single rat ventricular cardiomyocytes SR Ca2+ content was found to be increased by 27% during Phase 2. The cellular substrates responsible for this increased SR Ca2+ content were 2-fold: 1) through reduced extrusion via both the Na+ Ca2+ Exchanger (NCX) and Plasmalemmal Ca2+ ATPase (PMCA) and 2) through increased resequestration via the SR Ca2+ ATPase. Iron catalyses the production of reactive oxygen species (ROS) during the Fenton reaction. To investigate whether iron effects might be due to ROS, I used the cell permeant ROS scavenger Tempol. Tempol attenuated Phase 2 effects but Phase 1 effects were not affected. This is consistent with the hypothesis that Phase 1 effects were due to direct effects of Fe2+ affecting LTCC trigger and RyR2 function. The attenuation of Phase 2 effects suggests that ROS damage to key Ca2+ handling mechanisms, such as NCX and PMCA might account for a reduced Ca2+ extrusion and subsequent SR Ca2+ overload.
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Oku, Yuki. "Local Redox Imbalance Induced by Intraorganellar Accumulation of Misfolded Proteins." Kyoto University, 2019. http://hdl.handle.net/2433/242781.
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Adams, Gregory Nicholas. "Prolylcarboxypeptidase protects from vascular dysfunction and promotes vascular repair." Case Western Reserve University School of Graduate Studies / OhioLINK, 2013. http://rave.ohiolink.edu/etdc/view?acc_num=case1346973249.
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Rivet, Catherine-Aurélie. "Impaired signaling in senescing T cells: investigation of the role of reactive oxygen species using microfluidic platforms and computational modeling." Diss., Georgia Institute of Technology, 2012. http://hdl.handle.net/1853/49020.
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The goal of cancer immunotherapies is to boost the immune system's ability to detect tumor antigens and mount an effective anti-tumor immune response. Currently, adoptive T cell transfer therapy (ACT), the administration of ex vivo expanded autologous tumor-specific T cells, is one of the most promising immunotherapies under development; however, its efficacy has been limited so far with a mere 10% complete remission rate in the most successful clinical trials. The prolonged ex vivo culture process is a potential reason for this ineffectiveness because the transfused cells may reach replicative senescence and immunosenescence prior to patient transfer. The objective of this thesis is to offer two approaches towards an improvement of treatment efficacy. First, we generated a 'senescence metric' from the identification of biomarkers that can be used in the clinic towards predicting age and responsiveness of ex vivo expanded T cells. The second approach is to understand at the molecular level the changes that occur during ex vivo expansion to devise improved ACT protocols. In particular, we focused on the shift towards a pro-oxidizing environment and its potential effects on calcium signaling. The combined development and application of microfluidic technologies and computational models in this thesis facilitated our investigations of the phenotypic and signaling changes occurring in T cells during the progression towards immunosenescence. Our findings of altered T cell properties over long term culture provide insight for the design of future cancer immunotherapy protocols.
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Semont, Audrey. "Implication des ROS mitochondriaux dans le couplage excitation contraction cardiaque." Thesis, Bordeaux, 2019. http://www.theses.fr/2019BORD0426.
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L’activation électrique des cardiomyocytes, via le courant de dépolarisation qu’elle induit, est primordiale dans la contraction cardiaque qui requiert l’adéquation de la production d'énergie par les mitochondries et des besoins énergétiques de l’appareil contractile. Les espèces radicalaires de l'oxygène (ROS) ont été récemment impliquées dans la régulation de nombreux acteurs du couplage excitation-contraction cardiaque. L’objectif de ce travail est d’explorer l'implication des ROS d'origine mitochondriale dans la régulation du couplage excitation-contraction au niveau du cardiomyocyte, en conditions physiologiques et pathologiques. C’est à cette fin qu’un modèle de surproduction endogène de ROS par addition de succinate - substrat énergétique mitochondrial - dans des cardiomyocytes isolés de cœur de rat a été mis au point. Différents protocoles pharmacologiques utilisant différents antioxydants (Trolox, MitoTEMPO et EUK) nous ont permis d’établir l'origine mitochondriale des ROS produits en présence de succinate. Enfin une étude pharmacologique utilisant la molécule OP2113 (inhibiteur spécifique de la production mitochondriale de ROS au niveau du complexe I de la chaine respiratoire- Brevet Philippe Diolez) nous a permis d'établir qu'environ 80% de cette production provenait du complexe I de la chaîne respiratoire. Notre travail s’est alors attaché à étudier, sur des cardiomyocytes isolés battants, les effets des ROS mitochondriaux sur différents paramètres du couplage excitation-contraction. Le succinate, via une surproduction de ROS mitochondriaux, provoque une baisse de 50% de l'amplitude de la contraction. L’amplitude de la contraction initiale est rétablie en présence de Trolox, MitoTEMPO ou OP2113, ce qui indique l'implication des ROS mitochondriaux et plus spécifiquement ceux produits au niveau du site IQ. Cette surproduction de ROS induit également une diminution de l’amplitude du transitoire calcique impliquant une diminution de la concentration en calcium systolique au cours de la contraction. Ces effets sont annulés en présence de Trolox et OP2113. Nous nous sommes alors attachés à moduler la concentration mitochondriale de calcium grâce à la cyclosporine A (inhibiteur du pore de transition mitochondrial) et au Ru360 (inhibiteur de l'entrée de calcium dans la mitochondrie). Il s’est avéré que ces inhibiteurs induisent une production de ROS insensible au Trolox et à OP2113 dont l'origine reste à établir. En conclusion une augmentation de la production mitochondriale de ROS se traduit par une diminution de la contraction intracytosolique et du transitoire calcique. L'ensemble de nos résultats illustre donc l’importance majeure de la mitochondrie dans le couplage excitation-contraction. Nos résultats ouvrent de nouvelles perspectives thérapeutiques dans le contexte de l’insuffisance cardiaque aigue ou chroniqueThe electrical activation of the cardiomyocyte through a generated depolarisation current is essential in the cardiac contraction, which requires the adequacy of the mitochondrial energy production and the energy needs of the contractile system. Radical oxygen species (ROS) have recently been involved in the regulation of many actors of the excitation-contraction coupling. The aim of this study was to explore the involvement of mitochondrial ROS in the regulation of the excitation-contraction coupling in cardiomyocytes, under physiological and pathological conditions. A model of endogenous ROS overproduction with the use of succinate was developed in isolated rat cardiomyocytes. Different pharmacological protocols, using various antioxidants (Trolox, Mito-Tempo,EUK and OP2113) allowed us to establish the mitochondrial origin of ROS production. Finally, the use of OP2113, (a specific inhibitor of mitochondrial ROS production, Patent P.Diolez) enabled us to establish that approximately 80 % of ROS production came from complex I in the respiratory chain. To start with, isolated cardiomyocytes were used to study the effects of mitochondrial ROS on different excitation-contraction coupling parameters. Succinate induced an overproduction of mitochondrial ROS, which lead to a drop of 50% of the contraction amplitude. The initial amplitude of contraction wasrecovered with addition of Trolox, Mito Tempo or OP2113, which demonstrates the implication of mitochondrial ROS produced at the site of Iq. Secondly, the overproduction of ROS leadsto a decrease of the calcium transient amplitude, due to a decrease of systolic calcium concentration during contraction. These effects were inhibited by Trolox and OP2113. Finally, mitochondrial calcium concentration was modulated with the use of Cyclosporin A (mitochondrial transition pore inhibitor) and Ru360 (mitochondrial calcium entry inhibitor). The inhibitors induced a ROS production unresponsive to Trolox and OP2113. The origin of which remains to be established. To conclude, an increase of mitochondrial ROS production results in a decrease of contraction amplitude and calcium transients. Our overall results demonstrate the critical significance of the mitochondrion in the excitation-contraction coupling. Our results open new therapeutic perspectives in the context of acute or chronic heart failure
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Duca, Edward. "Invadolysin, a conserved lipid droplet-associated protease interacts with mitochondrial ATP synthase and regulates mitochondrial metabolism in Drosophila." Thesis, University of Edinburgh, 2011. http://hdl.handle.net/1842/5562.
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Invadolysin (inv) is a member of the M8 class of zinc-metalloproteases and is conserved throughout metazoans. It is essential for development and invadolysin homozygous Drosophila mutants are third instar larval lethal. These larvae exhibit a reduced larval brain size and an absence of imaginal discs. Detailed analysis showed that inv mutants exhibit pleiotropic effects, including defects with chromosome architecture, cell cycle progression, spindle assembly, nuclear envelope dynamics, protein turnover and problems with germ cell migration. These findings indicated that Invadolysin must have a critical role in Drosophila. In order to better understand these roles, I set out to identify genetic interactors of invadolysin. I performed a genetic screen scoring for enhancer/suppressor modification of a ‘rough eye’ phenotype induced by invadolysin overexpression. Screening against the Drosdel ‘deficiency kit’ identified numerous genetic interactors including genes linked to energy regulation, glucose and fatty acid pathways. Immunofluorescence experiments in cultured cells showed that H. sapiens Invadolysin localises to the surface of lipid droplets (LD), and subcellular fractionation confirmed its enrichment to these structures. Lipid droplets are highly dynamic organelles involved not only in energy storage but also in protein sequestration, protein and membrane trafficking, and cell signaling. Drosophila fat bodies are enriched in LDs and therefore important energy stores. In addition, they are nutritional sensors and regulators, which are proposed to be the ortholog of vertebrate liver and adipose tissue. Mutant inv fat bodies appeared smaller and thinner than wild type fat body, and accumulated lower levels of triacylgylcerides. This indicated that the loss of invadolysin might be affecting lipid metabolism and storage, confirming the genetic data. However, it was not clear whether these effects were due to the direct action of Invadolysin. Hence, transgenic fly lines expressing either HA, RFP or FLAG tagged forms of Invadolysin were generated to identify physical interactors of Invadolysin. Subsequent mass spectrometry analysis detected ATP synthase-α, -β and -d as interactors. This result suggested that Invadolysin might play a role in regulating mitochondrial function, which might then be manifest in the fat body as the defects previously observed. Energy levels are known to affect the cell cycle, cell growth, lipid metabolism and inevitably development. Further in vivo and in vitro experiments confirmed this hypothesis. Genetic crosses confirmed the interaction of invadolysin with ATP-synthase subunit-α, whilst staining of mitochondria in mutant third instar larval fat bodies suggested decreased mitochondrial activity. Mutants also showed lower ATP levels and an accumulation of reactive oxygen species, hence indicating the possibility of a dysfunctional electron transport chain. Lipid droplets are known to interact with mitochondria, whilst ATP synthase has been found on lipid droplets by proteomic studies in Drosophila. Therefore, based on these data, we propose that Invadolysin is found, with ATP synthase, on lipid droplets, where Invadolysin (likely acting as a protease) could be aiding the normal processing or assembly of ATP synthase. This interaction is vital for the proper functioning of ATP synthase, and hence mitochondria. In this scenario, cellular ATP needs are not met, energy levels drop which results in an inhibition of fatty acid synthesis, cell and organismal growth defects.
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Pan, Minglin, Ying Han, Rui Si, Rui Guo, Ankit Desai, and Ayako Makino. "Hypoxia-induced pulmonary hypertension in type 2 diabetic mice." SAGE PUBLICATIONS INC, 2017. http://hdl.handle.net/10150/623894.
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Hypoxia-induced pulmonary hypertension (HPH) is a progressive disease that is mainly caused by chronic exposure to high altitude, chronic obstructive lung disease, and obstructive sleep apnea. The increased pulmonary vascular resistance and increased pulmonary arterial pressure result in increased right ventricular afterload, leading to right heart failure and increased morbidity. There are several clinical reports suggesting a link between PH and diabetes, insulin resistance, or obesity; however, it is unclear whether HPH is associated with diabetes as a progressive complication in diabetes. The major goal of this study is to examine the effect of diabetic ''preconditioning'' or priming effect on the progression of HPH and define the molecular mechanisms that explain the link between diabetes and HPH. Our data show that HPH is significantly enhanced in diabetic mice, while endothelium-dependent relaxation in pulmonary arteries is significantly attenuated in chronically hypoxic diabetic mice (DH). In addition, we demonstrate that mouse pulmonary endothelial cells (MPECs) isolated from DH mice exhibit a significant increase in mitochondrial reactive oxygen species (ROS) concentration and decreased SOD2 protein expression. Finally, scavenging mitochondrial ROS by mitoTempol restores endothelium-dependent relaxation in pulmonary arteries that is attenuated in DH mice. These data suggest that excessive mitochondrial ROS production in diabetic MPECs leads to the development of severe HPH in diabetic mice exposed to hypoxia.
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Oruqaj, Gani [Verfasser]. "Reactive oxygen species (ROS) and lipid metabolism in idiopathic pulmonary fibrosis - role of peroxisomes in the pathogenesis of this devastating disease / Gani Oruqaj." Gießen : Universitätsbibliothek, 2016. http://d-nb.info/1111425876/34.
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Messenger, David James. "Impact of UV light on the plant cell wall, methane emissions and ROS production." Thesis, University of Edinburgh, 2009. http://hdl.handle.net/1842/4347.
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This study presents the first attempt to combine the fields of ultraviolet (UV) photobiology, plant cell wall biochemistry, aerobic methane production and reactive oxygen species (ROS) mechanisms to investigate the effect of UV radiation on vegetation foliage. Following reports of a 17% increase in decomposition rates in oak (Quercus robur) due to increased UV, which were later ascribed to changes in cell wall carbohydrate extractability, this study investigated the effects of decreased UV levels on ash (Fraxinus excelsior), a fast-growing deciduous tree species. A field experiment was set up in Surrey, UK, with ash seedlings growing under polytunnels made of plastics chosen for the selective transmission of either all UV wavelengths, UV-A only, or no UV. In a subsequent field decomposition experiment on end-of-season leaves, a significant increase of 10% in decomposition rate was found after one year due to removal of UV-B. However, no significant changes in cell wall composition were found, and a sequential extraction of carbohydrate with different extractants suggested no effects of the UV treatments on cell wall structure. Meanwhile, the first observations of aerobic production of methane from vegetation were reported. Pectin, a key cell wall polysaccharide, was identified as a putative source of methane, but no mechanism was suggested for this production. This study therefore tested the effect of UV irradiation on methane emissions from pectin. A linear response of methane emissions against UV irradiation was found. UV-irradiation of de-esterified pectin produced no methane, demonstrating esters (probably methyl esters) to be the source of the observed methane. Addition of ROS-scavengers significantly decreased emissions from pectin, while addition of ROS without UV produced large quantities of methane. Therefore, this study proposes that UV light is generating ROS which are then attacking methyl esters to create methane. The study also demonstrates that this mechanism has the potential to generate several types of methyl halides. These findings may have implications for the global methane budget. In an attempt to demonstrate ROS generation in vivo by UV irradiation, radio-labelling techniques were developed to detect the presence of oxo groups, a product of carbohydrate attack by ROS. Using NaB3H4, the polysaccharides of ash leaflets from the field experiment were radio-labelled, but did not show any significant decrease in oxo groups due to UV treatments. However, UV-irradiation of lettuce leaves showed a significant increase in radio-labelling, suggesting increased UV irradiation caused an increase in the production of ROS. The study shows that the use of this radio-labelling technique has the potential to detect changes in ROS production due to changes in UV levels and could be used to demonstrate a link between ROS levels and methane emissions.
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Kinyanjui, Sophia Nduta. "Biological Applications of a Strongly Luminescent Platinum (II) Complex in Reactive Oxygen Species Scavenging and Hypoxia Imaging in Caenorhabditis elegans." Thesis, University of North Texas, 2015. https://digital.library.unt.edu/ark:/67531/metadc822774/.
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Phosphorescent transition metal complexes make up an important group of compounds that continues to attract intense research owing to their intrinsic bioimaging applications that arise from bright emissions, relatively long excited state lifetimes, and large stokes shifts. Now for biomaging assay a model organism is required which must meet certain criteria for practical applications. The organism needs to be small, with a high turn-over of progeny (high fecundity), a short lifecycle, and low maintenance and assay costs. Our model organism C. elegans met all the criteria. The ideal phosphor has low toxicity in the model organism. In this work the strongly phosphorescent platinum (II) pyrophosphito-complex was tested for biological applications as a potential in vivo hypoxia sensor. The suitability of the phosphor was derived from its water solubility, bright phosphorescence at room temperature, and long excited state lifetime (~ 10 µs). The applications branched off to include testing of C. elegans survival when treated with the phosphor, which included lifespan and fecundity assays, toxicity assays including the determination of the LC50, and recovery after paraquat poisoning. Quenching experiments were performed using some well knows oxygen derivatives, and the quenching mechanisms were derived from Stern-Volmer plots. Reaction stoichiometries were derived from Job plots, while percent scavenging (or antioxidant) activities were determined graphically. The high photochemical reactivity of the complex was clearly manifested in these reactions.
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Gupte, Anshul. "TARGETING THE METAL CHELATOR D-PENICILLAMINE TO EXPLOIT THE ELEVATED COPPER AND OXIDATIVE STRESS ASSOCIATED WITH CANCER." UKnowledge, 2008. http://uknowledge.uky.edu/gradschool_diss/598.
Full textAbstract:
The significantly increased copper and oxidative stress levels are characteristic hallmarks of cancer cells. These differences provide a unique opportunity for selective targeting of cancer cells. D-penicillamine (D-pen) has been proposed to generate reactive oxygen species (ROS) in presence of copper. Therefore, these studies were aimed at investigating the potential application of a currently marketed copper chelator, D-pen, as a novel cytotoxic anti-cancer agent. D-pen was shown to produce ROS, specifically hydrogen peroxide (H2O2), in the presence of cupric sulfate through a copper catalyzed oxidation reaction. During this process D-pen was converted to D-pen disulfide. The experimental proof of the H2O2 generation was conclusively shown with the aid of a novel High Performance Liquid Chromatography (HPLC) assay. The in-vitro cytotoxicity of D-pen co-incubated with cupric sulfate was examined in human beast cancer (MCF-7 and BT474) and leukemia cells (HL-60, HL-60/VCR, and HL-60/ADR). D-pen was shown to cause concentration dependent cytotoxicity in both leukemia and breast cancer cells. A direct correlation between the detection of intracellular ROS and cytotoxicity was established. The treatment of D-pen plus cupric sulfate resulted in a significant reduction in the intracellular thiol content. D-pen is highly hydrophilic and is rapidly eliminated from the body; therefore to improve the intracellular uptake and to protect the thiol group of D-pen, we carried out the synthesis and the in-vitro characterization of a novel gelatin-D-pen conjugate. It was shown that D-pen alone does not enter cells. Confocal microscopy was employed to exhibit the uptake of the novel gelatin-D-pen conjugate by cancer cells. As the cancer cells in-vitro do not accumulate the same levels of copper as reported for cancer cells in-vivo, cancer cells were pre-treated with cupric sulfate to simulate the elevated copper levels. The cupric sulfate pretreatment resulted in reduced thiol level and significantly increased cellular copper content compared to untreated cells. Whereas both free D-pen and gelatin-D-pen conjugate lacked cytotoxicity in un-treated cells, both agents caused concentration dependent cytotoxicity in cupric sulfate pre-treated leukemia cells. Therefore, it was shown that the administration of D-pen as polymer conjugate would potentially provide cytotoxicity and specificity in the treatment of cancer.
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Okoh, Victor. "4-Hydroxy Estradiol-Induced Oxidant-Mediated Signaling Is Involved In The Development Of Breast Cancer." FIU Digital Commons, 2010. http://digitalcommons.fiu.edu/etd/348.
Full textAbstract:
Breast cancer is a disease associated with excess exposures to estrogens. While the mode of cancer causation is unknown, others have shown that oxidative stress induced by prolonged exposure to estrogens mediates renal, liver, endometrial and mammary tumorigenesis though the mechanism(s) underling this process is unknown. In this study, we show that 4-hydroxyl 17β-estradiol (4-OHE2), a catechol metabolite of estrogen, induces mammary tumorigenesis in a redox dependent manner. We found that the mechanism of tumorigenesis involves redox activations of nuclear respiratory factor-1 (NRF1); a transcriptions factor associated with regulation of mitochondria biogenesis and oxidative phosphorylation (OXPHOS), as well as mediation of cell survival and growth of cells during periods of oxidative stress. Key findings from our study are as follows: (i) Prolonged treatments of normal mammary epithelial cells with 4-OHE2, increased the formation of intracellular reactive oxygen species (ROS). (ii) Estrogen-induced ROS activates redox sensitive transcription factors NRF1. (iii) 4-OHE2 through activation of serine-threonine kinase and histone acetyl transferase, phosphorylates and acetylate NRF1 respectively. (iv) Redox mediated epigenetic modifications of NRF1 facilitates mammary tumorigenesis and invasive phenotypes of breast cancer cells via modulations of genes involved in proliferation, growth and metastasis of exposed cells. (v) Animal engraftment of transformed clones formed invasive tumors. (vi) Treatment of cells or tumors with biological or chemical antioxidants, as well as silencing of NRF1 expressions, prevented 4-OHE2 induced mammary tumorigenesis and invasive phenotypes of MCF-10A cells. Based on these observations, we hypothesize that 4-OHE2 induced ROS epigenetically activate NRF1 through its phosphorylation and acylation. This, in turn, through NRF1-mediated transcriptional activation of the cell cycle genes, controls 4-OHE2 induced cell transformation and tumorigenesis.
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Marklund, Niklas. "The role of reactive oxygen species in traumatic brain injury : Experimental studies in the rat." Doctoral thesis, Uppsala : Acta Universitatis Upsaliensis : Univ.-bibl. [distributör], 2001. http://publications.uu.se/theses/91-554-5053-9/.
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Barreiro, Portela Esther. "Study of reactive oxygen species (ROS) and nitric oxide (NO) as molecular mediators of the sepsis-induced diaphragmatic contractile dysfunction : protective effect of heme oxygenases." Doctoral thesis, Universitat Pompeu Fabra, 2002. http://hdl.handle.net/10803/7066.
Full textAbstract:
Protein nitration is considered as a marker of reactive nitrogen species formation. Heme oxygenases (HOs) are important for the defence against oxidative stress. We evaluated the involvement of the neuronal (nNOS), the endothelial (eNOS), and the inducible (iNOS) in nitrotyrosine formation and localitzation, and both the expression and funcional significance (HO inhibition and contractility studies) of HOs in sepsis-induced muscle contractile dysfunction. Sepsis was elicited by injecting rats and transgenic mice deficient in either nNOS, eNOS, or iNOS isoforms with E.Coli lipolysaccharide (LPS). Nitrotyrosine formation and HO expressions were assessed by immunoblotting. Oxidative stress was assessed measuring protein oxidation, lipid peroxidation, and muscle glutathione. We conclude that protein tyrosine nitration occurs in normal muscles, and sepsis-mediated increase in nitrotyrosine formation is limited to the mitochondria and membrane muscle fractions. The iNOS isoform is mostly involved in nitrotyrosine formation. HOs protect normal and septic muscles from the deleterious effects of oxidants.En un model de sepsi de disfunció diafragmàtica, s´ha avaluat el paper de les sintetases de l'òxid nítric (NOS) en la formació i localitzacio de 3-nitrotirosina, i l´expressió i significat biològic de les hemo oxigenases (HOs) (inhibidor de les HOs i estudis de contractilitat) davant l' estrès oxidatiu. La sepsi s'induí mitjançant injecció de 20 mg/kg del lipolisacàrid (LPS) d´Escherichia Coli a rates, i a ratolins deficients en les NOS induïble (iNOS), neuronal (nNOS) i endotelial (eNOS). Les proteïnes nitrificades i les HOs es van detectar amb anticossos específics. L' estrès oxidatiu s' avaluà mitjançant l' oxidació proteica, la peroxidació lipídica i el glutation muscular. Concloem que hi han proteïnes nitrificades en el múscul normal i aquestes s'incrementen durant la sepsi en les fraccions mitocondrial i membranar. L'isoforma iNOS és majorment responsable de la formació de nitrotirosina. Les HOs protegirien el múscul normal i sèptic dels efectes deleteris dels oxidants.
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Bell-Horwath, Tiffany R. "Derivation of Hydroquinone to Produce Selective, Oxidatively Activated Chemotherapeutic Agents." University of Cincinnati / OhioLINK, 2014. http://rave.ohiolink.edu/etdc/view?acc_num=ucin1397736839.
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Wason, Melissa. "Cerium Oxide Nanoparticles Sensitize Pancreatic Cancer Cells to Radiation by Promoting Acidic pH, ROS, and JNK Dependent Apoptosis." Doctoral diss., University of Central Florida, 2013. http://digital.library.ucf.edu/cdm/ref/collection/ETD/id/6033.
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Side effects of radiation therapy (RT) remain the most challenging issue for pancreatic cancer treatment. In this report we determined whether and how cerium oxide nanoparticles (CONPs) sensitize pancreatic cancer cells to RT. CONP pretreatment enhanced radiation-induced reactive oxygen species (ROS) production preferentially in acidic cell-free solutions as well as acidic human pancreatic cancer cells. In acidic environments, CONPs favor the scavenging of superoxide radical over the hydroxyl peroxide resulting in accumulation of the latter whereas in neutral pH CONPs scavenge both. CONP treatment prior to RT markedly potentiated the cancer cell apoptosis both in culture and in tumors and the inhibition of the pancreatic tumor growth without harming the normal tissues or host mice. Mechanistically, CONPs were not able to significantly impact RT-induced DNA damage in cancer cells, thereby ruling out sensitization through increased mitotic catastrophe. However, JNK activation, which is known to be a key driver of RT-induced apoptosis, was significantly upregulated by co-treatment with CONPs and RT in pancreatic cancer cells in vitro and human pancreatic tumors in nude mice in vivo compared to CONPs or RT treatment alone. Further, CONP-driven increase in RT-induced JNK activation was associated with marked increases in Caspase 3/7 activation, indicative of apoptosis. We have shown CONPs increase ROS production in cancer cells; ROS has been shown to drive the oxidation of thioredoxin (TRX) 1 which results in the activation of Apoptosis Signaling Kinase (ASK) 1. The dramatic increase in ASK1 activation following the co-treatment of pancreatic cancer cells with CONPs followed by RT in vitro suggests that increased the c-Jun terminal kinase (JNK) activation is the result of increased TRX1 oxidation. The ability of CONPs to sensitize pancreatic cancer cells to RT was mitigated when the TRX1 oxidation was prevented by mutagenesis of a cysteine residue, or the JNK activation was blocked by an inhibitor,. Additionally, angiogenesis in pancreatic tumors treated with CONPs and RT was significantly reduced compared to other treatment options. Taken together, these data demonstrate an important role and mechanisms for CONPs in specifically killing cancer cells and provide novel insight into the utilization of CONPs as a radiosensitizer and therapeutic agent for pancreatic cancer.Ph.D.
Doctorate
Molecular Biology and Microbiology
Medicine
Biomedical Sciences
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Cui, Yuqi. "Role of Reactive Oxygen Species in Mediating the Effect of Oxidized Low Density Lipoprotein on Bone Marrow Stem Cells and Endothelial Progenitor Cells in Hyperlipidemia." The Ohio State University, 2014. http://rave.ohiolink.edu/etdc/view?acc_num=osu1397058562.
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Rocha, Camila de Melo Romero. "Avaliação dos efeitos tóxicos de novas substâncias bioativas: detecção de estresse oxidativo e mutagenicidade." Universidade de São Paulo, 2018. http://www.teses.usp.br/teses/disponiveis/82/82131/tde-29082018-143122/.
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A produção de espécies reativas de oxigênio (ROS) nos sistemas biológicos é contrabalanceada pelos sistemas antioxidantes enzimáticos e não-enzimáticos. Quando há um desequilíbrio entre a geração de ROS e esses sistemas, ocorre um aumento dessas espécies reativas causando estresse oxidativo, que pode levar a danos a macromoléculas, como lipídios, proteínas e o DNA. Os fármacos doxorrubicina (antineoplásico) e benzonidazol (antiparasitário) são conhecidos por induzir efeitos colaterais que podem estar relacionados ao aumento de ROS. Além disso, ensaios de mutagenicidade demonstram que esses fármacos apresentam atividade mutagênica por danos oxidativos. O Grupo NEQUIMED desenvolve substâncias com potencial atividade antineoplásica e antiparasitária, as quais ainda não foram avaliadas em relação às propriedades tóxicas e genotóxicas. Dessa forma, o objetivo deste trabalho foi analisar as propriedades mutagênicas e de estresse oxidativo dessas novas substâncias, comparando aos fármacos benzonidazol e doxorrubicina. Para detecção de ROS foi realizado o ensaio fluorimétrico utilizando o marcador 2,7-diacetato de diclorofluoresceína (DCFH-DA) em linhagens celulares de hepatocarcinoma humano (HepG2) e fibroblasto de camundongo (Balb/C 3T3 clone A31). O estado redox destas células foi avaliado através da quantificação da expressão gênica e do conteúdo proteico das enzimas antioxidantes através das técnicas de qRT-PCR e Western blot, respectivamente. A atividade mutagênica foi analisada com o ensaio Ames miniaturizado Salmonella/microssoma utilizando a linhagem TA102 de Salmonella typhimurium que detecta agentes mutagênicos que causam danos por oxidação. Os resultados mostraram que as substâncias estudadas pelo Grupo não induzem aumento na produção de ROS ou induzem em menores níveis do que doxorrubicina e benzonidazol, além de levar a alterações menos proeminentes que os fármacos para a expressão das proteínas antioxidantes. No ensaio mutagênico, o benzonidazol apresentou o pior perfil, doxorrubicina e Neq0438 somente foram mutagênicos com ativação enzimática, enquanto Neq0551 foi inativo. Assim, as novas substâncias (Neq0438 e Neq0551) apresentaram um perfil melhor do que os fármacos de referência, tornando-os candidatos promissores para estudos in vitro e in vivo subsequentes.The production of reactive oxygen species (ROS) in biological systems is compensated by the enzymatic and non-enzymatic antioxidant systems. The excessive ROS production causes oxidative stress, which can damage important cellular macromolecules such as lipids, proteins and DNA. The drugs doxorubicin (antineoplastic) and benzonidazole (antiparasitic) are both known for their side effects, which can be related to the increase of ROS. Besides, mutagenicity assays show that these drugs have a mutagenic activity via oxidative damages. The research group NEQUIMED studies new substances with potential antineoplastic and antiparasitic activities, but their toxic and genotoxic properties have not been fully evaluated yet. Thus, the aim of this work is to assess the mutagenic potential and the oxidative stress generated by these substances, comparing them to benzonidazole and doxorubicin. The fluorimetric assay using the probe dichloro-dihydro-fluorescein diacetate (DCFH-DA) was used for ROS detection in human hepatocarcinoma (HepG2) and mouse fibroblast (Balb/C 3T3 clone A31) cell lines. The redox state of these cells was evaluate by qRT-PCR and Western blot methods to quantifying gene expression and protein content of the antioxidant enzymes. The mutagenic potential was assessed by the miniaturized Ames text with the Salmonella/microssome mutagenicity assay, using the TA102 strain of Salmonella typhimurium, which detects oxidation damages to the DNA. The new substances did not induce an increase on ROS production, or did in lower levels when compared to doxorubicin and benzonidazole. Moreover, reference drugs also induced greater changes on the expression of the antioxidant enzymes. Benznidazole had a higher mutagenic activity, while Neq0438 and doxorubicin were mutagenic only when incubated with enzymatic activation. Neq0551 was inactive for Ames assay. Therefore, these new substances (Neq0438 and Neq0551) had a better overall profile than the reference drugs, turning out to be promising candidates for further in vitro and in vivo studies.
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Semete, Boitumelo. "Analysis of metallothionein gene expression in oxidative stress related disorders / by Boitumelo Semete." Thesis, North-West University, 2004. http://hdl.handle.net/10394/51.
Full textAbstract:
Increased reactive oxygen species (ROS) have been reported to be at the centre of various diseases. Although several reports have implicated elevated levels of ROS in the
pathogenesis of diabetes mellitus, the early detection of ROS is still not attainable. This limitation causes difficulty in the early diagnosis of ROS related disorders. The presence of high levels of ROS was reported to result in differential expression of antioxidant genes involved in protecting cells from their deleterious effects. Among the antioxidant genes that are expressed, it was postulated that expression of metallothioneins (MTs) are also induced. MTs are low molecular weight, cysteine-rich proteins involved in metal homeostasis and reported to harbour antioxidant function. The aim of this investigation was to explore MTs as biomarkers for elevated levels of ROS in
whole blood of type 2 diabetic (T2D) individuals. The level of ROS in diabetic, non-diabetic as well as individuals at risk of developing T2D was determined via the use of biochemical assays. Real-Time PCR was utilised to analyse the expression of MTs and the presence of MT proteins was analysed via the ELISA. In this study it was observed that diabetic individuals had elevated levels of ROS. However, no significant difference in the expression of MTs and the presence of MT proteins between the diabetic and non-diabetic individuals was observed. In vitro experimental conditions indicated that MT expression is induced by elevated levels of ROS. In pathological conditions the ROS-dependent induction of MT expression needs to be elucidated further. It therefore can be suggested that MTs can not yet be utilised as biomarkers for the detection of elevated levels of ROS in pathological conditions with ROS aetiology. This investigation also highlights the fact that blood is not an optimal medium in which this objective can be attained.Thesis (Ph.D. (Biochemistry))--North-West University, Potchefstroom Campus, 2005.
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Jackson, Charlotte. "Nox inhibitors : A potential future medicine for ischemia stroke." Thesis, Högskolan i Skövde, Institutionen för hälsa och lärande, 2018. http://urn.kb.se/resolve?urn=urn:nbn:se:his:diva-15834.
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This study investigated the neuroprotective effects of novel small molecule NOX inhibitors after induction of an ischemic stroke model on Neuroblastoma cells (NB69). Previous findings show that high levels of reactive oxygen species (ROS) have been identified for playing a role in causing inflammation, cellular damage and apoptosis in many cardiovascular diseases. It is believed that by inhibiting the Nox enzymes that generate ROS, the damage caused to the brain (measured as % cell viability) would be decreased. NOX2 and NOX4 gene expression what validated in NB69 cells using PCR, gel electrophoresis and GAPDH as a reference gene. Stroke was modelled by using the oxygen-glucose depletion model and reperfusion injury was modelling by replenishing glucose and oxygen supplies to the cell and incubator for 24-72hrs. Gene expression of NOX4 expression after 1hr ischemia and 24-48hrs reperfusion showed there was an increase in relative expression after 24hrs and a decrease in expression after 48hrs. No gene expression analysis could be shown for NOX2. Cell viability was measured amongst treatment groups using the MTS assay. Statistical analysis consisted of Shapiro Wilk tests, One-way ANOVAs, Tukey tests and ROUT Outlier analysis. Only M114 was seen to have a statistically significant neuroprotective effect on the cells ( after 1hr ischemia, 24+48hrs reperfusion and 2hr ischemia + 48hr reperfusion). After 72hrs reperfusion all three treatments reduced cell viability significantly from the negative control group (p<0.0001) highlighting the importance of ROS signalling in neural cells and the consequences of eradicating it. Media was changed on plates after 48hrs reperfusion. These findings show that all three substances have some effect on the cells and can target their NOX enzymes and identifies M114 as a potential new treatment for stroke patients.
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Haissaguerre, Magali. "Etude de l’intéraction entre les ros et la voie mtorc1 dans la régulation de la balance énergetique." Thesis, Bordeaux, 2015. http://www.theses.fr/2015BORD0206/document.
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La voie de signalisation mTORC1 hypothalamique (mammalian target of rapamycincomplexe 1) intègre les signaux hormonaux et nutritionnels. La disponibilité des nutrimentsmodule les espèces réactives derivées de l’oxygène (ROS) qui régulent l’activité des neuronesà propiomélanocortine (POMC). La modulation de la prise alimentaire induite par les ROSpourrait impliquer mTORC1.Des souris C57Bl6J et wild-type (WT) ou invalidées pour S6K1 (S6K1-KO), principaleprotéine cible de mTORC1, ou invalidées pour raptor, protéine clé de mTORC1,sélectivement au niveau des neurones anorexigènes POMC (POMC-raptor-KO) ont ététraitées par injections intracérébroventriculaires (ICV) d’H2O2 ou d’honokiol (piégeur deROS), uniques ou combinées avec un inhibiteur de mTOR (rapamycine) ou un activateur demTOR (leptine).L’H2O2 ICV induit une augmentation de l’activité hypothalamique mTORC1, de l’activationneuronale du noyau arqué, de l’expression des ROS dans les neurones POMC, associée à unediminution de la prise alimentaire et du poids. Cet effet anorexigène est diminué chez lessouris S6K1-KO, chez les C57Bl6J après administration de rapamycine, et chez les POMCraptor-KO.L’honokiol ICV bloque l’effet anorexigène de la leptine, suggérant que cet effet soitdépendant des ROS. La leptine ICV entraine une augmentation des ROS dans les neuronesPOMC des souris C57Bl6J et POMC-raptor-WT, mais pas chez les POMC-raptor-KO.Nos résultats montrent que la régulation de la prise alimentaire induite par les ROS nécessiteune voie mTORC1 fonctionnelle et que l’effet anorexigène de la leptine nécessite uneaugmentation de ROS, mTORC1 dépendante, au niveau des neurones POMCThe mechanistic target of rapamycin complex 1 (mTORC1) pathway is an importanthypothalamic integrator of nutrients and hormones. Nutrient availability also affects thereactive oxygen species (ROS) in propiomelanocortin (POMC) neurons and regulatesneuronal activity. We hypothesize that modulation of mTORC1 activity mediates ROS effectson food intake.To this purpose, C57Bl6J mice or WT mice and their KO littermates either deficient for themTORC1 downstream target S6K1 or for the mTORC1 component raptor specifically inPOMC neurons (POMC-raptor-KO) were treated with an intracerebroventricular (ICV)injection of the ROS producer H2O2 or the ROS scavenger honokiol, alone or in combinationwith the mTOR inhibitor rapamycin or the mTOR activator leptin.ICV H2O2 induced phosphorylation of S6K1 within the hypothalamus, increased expressionof c-fos, a marker of neuronal activity, in the arcuate nucleus and increased ROS in POMCneurons. These effects were associated with a significant decrease in food intake. Theanorexigenic effect of ICV H2O2 was not seen in S6K1-KO mice, in C57Bl6J mice cotreatedwith rapamycin (an mTOR inhibitor) and in POMC-raptor-KO mice.Similarly, ICV honokiol administration combined with a leptin injection blunted theanorexigenic effect of leptin, suggesting that leptin requires ROS formation to reduce FI. ICVadministration of leptin increased ROS in POMC neurons in C57Bl6J and POMC-raptor-WTmice, but not in POMC-raptor-KO mice.Our results demonstrate that ROS modulators require a functional mTORC1 pathway toregulate food intake and that leptin needs an mTORC1-dependent increase in ROS levels inPOMC neurons to decrease food intake
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Garba, Nana Aisha. "The Role of Redox Signaling in the Molecular Mechanism of Tamoxifen Resistance in Breast Cancer." FIU Digital Commons, 2012. http://digitalcommons.fiu.edu/etd/551.
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The emergence of tamoxifen or aromatase inhibitor resistance is a major problem in the treatment of breast cancer. The molecular signaling mechanism of antiestrogen resistance is not clear. Understanding the mechanisms by which resistance to these agents arise could have major clinical implications for preventing or circumventing it. Therefore, in this dissertation we have investigated the molecular mechanisms underlying antiestrogen resistance by studying the contributions of reactive oxygen species (ROS)-induced redox signaling pathways in antiestrogen resistant breast cancer cells. Our hypothesis is that the conversion of breast tumors to a tamoxifen-resistant phenotype is associated with a progressive shift towards a pro-oxidant environment of cells as a result of oxidative stress. The hypothesis of this dissertation was tested in an in vitro 2-D cell culture model employing state of the art biochemical and molecular techniques, including gene overexpression, immunoprecipitation, Western blotting, confocal imaging, ChIP, Real-Time RT-PCR, and anchorage-independent cell growth assays. We observed that tamoxifen (TAM) acts like both an oxidant and an antioxidant. Exposure of tamoxifen resistant LCC2 cell to TAM or 17 beta-estradiol (E2) induced the formation of reactive oxidant species (ROS). The formation of E2-induced ROS was inhibited by co-treatment with TAM, similar to cells pretreated with antioxidants. In LCC2 cells, treatments with either E2 or TAM were capable of inducing cell proliferation which was then inhibited by biological and chemical antioxidants. Exposure of LCC2 cells to tamoxifen resulted in a decrease in p27 expression. The LCC2 cells exposed to TAM showed an increase in p27 phosphorylation on T157 and T187. Conversely, antioxidant treatment showed an increase in p27 expression and a decrease in p27 phosphorylation on T157 and T187 in TAM exposed cells which were similar to the effects of Fulvestrant. In line with previous studies, we showed an increase in the binding of cyclin E–Cdk2 and in the level of p27 in TAM exposed cells that overexpressed biological antioxidants. Together these findings highly suggest that lowering the oxidant state of antiestrogen resistant LCC2 cells, increases LCC2 susceptibility to tamoxifen via the cyclin dependent kinase inhibitor p27.
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Nieuwoudt, Stephnie. "Preparation, stability and in vitro evaluation of liposomes containing chloroquine / Stephnie Nieuwoudt." Thesis, North-West University, 2010. http://hdl.handle.net/10394/4740.
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Malaria is currently a huge treat worldwide, as far as infections are concerned, and is
responsible for thousands of deaths per annum. The dilemma associated with the development
of anti–malarial drug resistance over the past few decades should be addressed as a matter of
urgency. Novel drug delivery systems should be developed in order to employ new and existing
anti–malarial drugs in the treatment and management of malaria. The aim of these delivery
systems should include an improvement in the efficacy, specificity, acceptability and therapeutic
index of anti–malarial drugs.
Previous studies have suggested that liposomes have the ability to encapsulate, protect and to
promote the sustained release of anti–malarial drugs. Two liposome formulations, namely
liposomes and chloroquine entrapped in liposomes, were formulated during this thesis and
evaluated by conducting a stability study and an in vitro study with the main focus on cell
viability.
The stability study consisted of a series of stability tests regarding the stability of nine liposome
and nine chloroquine entrapped in liposome formulations over a period of twelve weeks. The in
vitro study included three assays such as a reactive oxygen species assay, a lipid peroxidation
assay and a hemolysis assay. The aims of these studies included the manufacturing of
liposomes, the incorporation of chloroquine into liposomes, the determination of the stability of
the formulations as well as the evaluation of the possible in vitro toxicity of liposomes.
Results obtained from these studies revealed that liposomes remained more stable over the
stability study period in comparison to chloroquine entrapped in liposomes. The entrapment of
chloroquine within liposomes was possible, although the initial entrapment efficiency (%) of
14.55 % was much too low. The production of reactive oxygen species occurred to a small
extent in the red blood cells and the infected red blood cells. Equal amounts of reactive oxygen
species (%) was observed within both the red blood cells and the infected red blood cells with a
maximum value of 23.27 % in the presence of the chloroquine entrapped in liposomes at
varying concentrations. Red blood cells experienced the highest degree of lipid peroxidation
(%) in the presence of chloroquine, at varying concentrations, entrapped in liposomes. The
maximum amount of lipid peroxidation (%) was 79.61 %. No significant degree of hemolysis
(%) was observed in the red blood cells neither in the presence of the liposomes nor in the
presence of the chloroquine entrapped in liposomes at varying concentrations.
It can be concluded that liposomes are a more stable formulation and have less toxic effects on
red blood cells and infected red blood cells in comparison to the chloroquine entrapped in liposome formulations. Future studies should investigate the possibility of a more stable and
less toxic chloroquine entrapped in liposome formulation.Thesis (M.Sc. (Pharmaceutics))--North-West University, Potchefstroom Campus, 2011.
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Santos, Neife Aparecida Guinaim dos. "Efeito da cisplatina na função, estresse oxidativo e estado redox mitocondrial renal em ratos: efeito protetor da dimetiltiouréia." Universidade de São Paulo, 2006. http://www.teses.usp.br/teses/disponiveis/60/60134/tde-22052007-091457/.
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Embora a cisplatina (cis-diaminocloroplatina II) seja um efetivo agente anticâncer, seu uso clínico é altamente limitado, predominantemente devido ao seu potencial nefrotóxico. Muitos estudos têm demonstrado que a cisplatina causa disfunção mitocondrial em células epiteliais renais e danos ao DNA nuclear devido à ação de espécies reativas de oxigênio tais como superóxido e radicais hidroxila. O aumento na produção destas espécies de oxigênio causa liberação de citocromo c no citosol, iniciando uma cascata de eventos que leva à morte celular por apoptose. A proteção seletiva da mitocôndria contra espécies reativas de oxigênio geradas pela cisplatina nos tecidos intactos tais como os rins, é fundamental na quimioterapia de pacientes com câncer. O presente estudo investigou os efeitos da cisplatina na bioenergética, no estado redox e no estresse oxidativo mitocondrial renal, bem como o potencial protetor da dimetiltiouréia (DMTU), um antioxidante seqüestrador de radicais hidroxila, com relação à toxicidade renal induzida pela cisplatina. Método: Ratos Wistar machos adultos pesando de 200 a 220 g foram divididos em quatro grupos de 8 animais cada. Ao primeiro grupo foi administrada cisplatina (10 mg/ kg) por via intra peritonial (i.p.). O segundo grupo recebeu somente injeções de DMTU (500 mg/kg, i.p., seguida de 2 injeções diárias de 125 mg/Kg, i.p). O terceiro grupo de animais foi tratado com DMTU (500 mg/kg, i.p.), imediatamente antes da injeção de cisplatina (10 mg/kg, i.p.), seguida de 2 injeções diárias de DMTU (125 mg/Kg, i.p.). O grupo controle recebeu somente solução salina (1ml/200g, i.p.). Os animais foram sacrificados 72 horas após a injeção de cisplatina (ou salina). Resultados: O tratamento com a cisplatina resultou em uma marcante diminuição da função renal demonstrada pela elevação dos níveis plasmáticos de uréia e de creatinina, concomitante a uma significativa alteração nos parâmetros relacionados à função Resumo ix mitocondrial (síntese de ATP, estado 3 da respiração, RCR, ADP/O, potencial de membrana e transporte de cálcio); ao estresse oxidativo mitocondrial (oxidação da cardiolipina, atividade da aconitase, lipoperoxidação, níveis de proteína carbonila e proteína sulfidrila); ao estado redox mitocondrial (oxidação do NAD(P)H, relação glutationa reduzida e glutationa oxidada) e à apoptose (atividade da caspase 3). O pré-tratamento dos animais com DMTU preveniu a falência renal aguda e as alterações dos parâmetros mitocondriais , sendo capaz de inibir a morte celular por apoptose. Conclusão: Os resultados demonstram o papel central da mitocôndria na falência renal aguda induzida pela cisplatina, bem como o efeito protetor do DMTU e sugerem que o desenvolvimento de potentes seqüestradores de radicais hidroxila, passíveis de uso clínico, poderia contribuir de forma marcante na prevenção dos danos renais resultantes da quimioterapia com este fármaco.Although cis-diamminedichloroplatinum (II) (cisplatin) is an effective anticancer agent, its clinical use is highly limited predominantly due to its adverse effects on renal functions. Many studies have shown that cisplatin causes mitochondrial dysfunction and direct injury to nuclear DNA by generating reactive oxygen species such as superoxide and hydroxyl radicals. Overproduction of reactive oxygen species causes the release of cytochrome c into cytosol, thereby triggering the sequence of events leading to cell death via apoptosis. The selective protection of mitochondria against reactive oxygen species generated by cisplatin in intact tissues, such as kidney, is of critical importance in the chemotherapy of patients with cancer. The present study examined the effects of cisplatin on renal mitochondrial bioenergetics, redox state and oxidative stress as well as the protective potential of dimethylthiourea (DMTU), a hydroxyl radical scavenger, against the cisplatin-induced nephrotoxicity. Methods: Adult male Wistar rats weighing 200 to 220g were divided into 4 groups with 8 animals each.. The first group was given a single intraperitoneal (i.p.) injection of cisplatin (10 mg/kg). The second group was given only DMTU (500 mg/kg body weight, i.p, followed by intraperitoneal injections of 125 mg/Kg twice a day until sacrifice). A third group of animals was given DMTU (500 mg/kg body weight, i.p.), just before cisplatin injection (10 mg/kg body weight, i.p.), followed by intraperitoneal injections of DMTU (125 mg/Kg body weight) twice a day until sacrifice. The control group was treated only with saline solution (1ml/200g body weight, i.p.). Animals were sacrificed 72 hours after the treatment. Results: Cisplatin treated animals presented a marked impairment of the renal function evidenced by the elevation of plasmatic creatinine and urea levels simultaneously to a significant alteration of the parameters related to: (a) the mitochondrial function assessed by ATP synthesis, Summary xi state 3 respiration, RCR, ADP/O ratio, membrane potential, calcium uptake; (b) the mitochondrial oxidative stress assessed by cardiolipin oxidation, aconitase activity, lipid peroxidation, protein carbonyls and protein sulphydryl; (c) the mitochondrial redox state assessed by NADPH/NADP+ ratio, GSH/GSSG ratio and (d) apoptosis assessed by caspase-3 activity. DMTU substantially inhibited cisplatin-induced mitochondrial injury and cellular death by apoptosis, thereby suppressing the occurrence of acute renal failure. Conclusions: Results show the central role of the mitochondria in the cisplatin-induced renal acute failure, the protective potential of DMTU and suggest that the development of potent hydroxyl radical scavengers suitable for use in man could minimize the adverse effects of cisplatin in the kidney of patients under chemotherapy.