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Littérature scientifique sur le sujet « LRIG2 protein »

Auteur : Grafiati
Publié le 4 juin 2021
Mis à jour le 1 février 2022

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Articles de revues sur le sujet "LRIG2 protein"

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Razumova, Zoia, Husam Oda, Igor Govorov, Eva Lundin, Ellinor Östensson, David Lindquist et Miriam Mints. « The Prognostic Role of LRIG Proteins in Endometrial Cancer ». Cancers 13, no 6 (17 mars 2021) : 1361. http://dx.doi.org/10.3390/cancers13061361.

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Endometrial cancer (EC) is the most common gynecologic malignancy in Sweden and it has various prognostic factors. The LRIG family is a group of three integral surface proteins with a similar domain organization. The study aimed to explore LRIG family as prognostic factor proteins in EC. The initial study cohort included 100 women with EC who were treated at the Department of Women’s and Children’s Health, Karolinska University Hospital Solna, between 2007 and 2012. We assessed the associations between LRIG protein expression and type, grade, and stage of EC, as well as progression-free and overall survival. Immunohistochemistry results revealed that most women in the analytical sample had >50% LRIG1-, LRIG2- and LRIG3-positive cells. A statistically significant association was observed between having a high number of LRIG3-positive cells and superior overall survival (incidence rate ratio = 0.977; 95% confidence interval: 0.958–0.996, p = 0.019). Moreover, positive LRIG3 staining of the cell membrane was associated with reducing in the risk of death (hazard ratio = 0.23; 95% confidence interval: 0.09–0.57). Our results show that LRIG3 expression might be a prognostic factor in EC. The role of LRIG1 and LRIG2 expression remains to be further investigated.
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Simion, Catalina, Maria Elvira Cedano-Prieto et Colleen Sweeney. « The LRIG family : enigmatic regulators of growth factor receptor signaling ». Endocrine-Related Cancer 21, no 6 (2 septembre 2014) : R431—R443. http://dx.doi.org/10.1530/erc-14-0179.

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The leucine-rich repeats and immunoglobulin-like domains (LRIG) family of transmembrane proteins contains three vertebrate members (LRIG1, LRIG2 and LRIG3) and one member each in flies (Lambik) and worms (Sma-10). LRIGs have stepped into the spotlight as essential regulators of growth factor receptors, including receptor tyrosine and serine/threonine kinases. LRIGs have been found to both negatively (LRIG1 and LRIG3) and positively (Sma-10 and LRIG3) regulate growth factor receptor expression and signaling, although the precise molecular mechanisms by which LRIGs function are not yet understood. The most is known about LRIG1, which was recently demonstrated to be a tumor suppressor. Indeed,in vivoexperiments reinforce the essential link between LRIG1 and repression of its targets for tissue homeostasis. LRIG1 has also been identified as a stem cell marker and regulator of stem cell quiescence in a variety of tissues, discussed within. Comparably, less is known about LRIG2 and LRIG3, although studies to date suggest that their functions are largely distinct from that of LRIG1 and that they likely do not serve as growth/tumor suppressors. Finally, the translational applications of expressing soluble forms of LRIG1 in LRIG1-deficient tumors are being explored and hold tremendous promise.
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Hoesl, Christine, Thomas Fröhlich, Jennifer E. Hundt, Hermann Kneitz, Matthias Goebeler, Ronald Wolf, Marlon R. Schneider et Maik Dahlhoff. « The transmembrane protein LRIG2 increases tumor progression in skin carcinogenesis ». Molecular Oncology 13, no 11 (21 octobre 2019) : 2476–92. http://dx.doi.org/10.1002/1878-0261.12579.

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Páez, David, Melissa Janae Labonte, Laia Paré, Dongyun Yang, Pierre Oliver Bohanes, Armin Gerger, Wu Zhang et al. « Use of leucine-rich and immunoglobulin-like domains germ-line polymorphisms to predict clinical outcome in metastatic colorectal cancer. » Journal of Clinical Oncology 30, no 15_suppl (20 mai 2012) : e14052-e14052. http://dx.doi.org/10.1200/jco.2012.30.15_suppl.e14052.

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e14052 Background: Leucine-rich and immunoglobulin-like domains (LRIG) 1, 2, and 3 are integral membrane proteins recently discovered as regulators of the epidermal growth factor signalling. LRIG1 negatively regulates growth factor signaling and increasing evidence indicates that LRIG1 is a tumor suppressor in certain cancer types. Lrig1 is expressed at low levels in several cancer types but is overexpressed in some colorectal tumors.We postulate that polymorphisms located in the LRIG1 gene could influence the EGFR signalling pathway and be related with the clinical outcome in metastatic colorectal cancer (mCRC). Methods: This study included 318 patients with mCRC treated between 1992 and 2003 at the University of Southern California/Norris Comprehensive Cancer Center or Los Angeles County/University of Southern California Medical Center. Common and putatively functional polymorphisms in the LRIG genes were selected using public literature resources and databases (NCBI, PubMed, db SNP, Ensembl and GeneCards). Whole blood samples were analyzed for germline polymorphisms by direct DNA-sequencing. Overall survival (OS) was evaluated according to each genotype. Furthermore, polymorphisms with suggestive statistical significance were replicated in an independent validation cohort of 126 Spanish mCRC. Results: In a preliminary analysis, two non-synonymous (c3158A>C and c1843A>G) and two synonymous (c2221T>C and c1317C>T) polymorphisms in the LRIG1 gene were selected. There were significant interactions between LRIG1 c1317C>T polymorphisms and clinical outcome. OS was lower for patients harboring T/T genotype (median=11.9 months, 95% C.I (3.5-16 months) than for patients with the C/C or C/T genotypes (median=14.5 months; 95% C.I (12.2-18.3 months); p= 0.04, log-rank test) and the association was also significant in the validation cohort (p=0.01). Conclusions: In this study, we identified common germline variants in LRIG1 gene predicting clinical outcome in patients with mCRC. Although, no functionality has been documented for these SNPs to date, our clinical data suggest that these polymorphisms may affect the mRNA stability and/or translation efficiency of the gene.
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Breton, Amandine, Laura Sonzogni, Andria Theodorou, Suleyman Aktuna, Stephan Menzel, Frank Grosveld, Sjaak Philipsen et Swee Lay Thein. « ASH1L : A Novel Beta-Globin Gene Regulator in Humans ? » Blood 126, no 23 (3 décembre 2015) : 641. http://dx.doi.org/10.1182/blood.v126.23.641.641.

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Abstract BACKGROUND: We have previously described a unique English family with beta-thalassemia trait which was not linked to the β-globin gene locus (Thein, Wood, Wickramasinghe, & Galvin, 1993). This suggested involvement of a trans-acting factor required for full activation of the β-globin gene locus. Such a factor is likely to be a modulator of disease severity in sickle cell disease and beta-thalassemia which could provide insights for novel therapeutic targets in the beta-globinopathies. RESULTS: We applied whole genome scan (WGS) to 2 affected and 2 unaffected subjects of the English family. The familial segregation suggested a dominant transmission mode; WGS identified 15 genes as potentially causative to the phenotype, with four genes located on chromosome 1, four on chromosome 3, three on chromosome 20, and one on chromosome 6, chromosome 8, chromosome 10 and chromosome 19. Sanger sequence analysis on 23 family members spanning three generations, including the 4 individuals that were subjected to WGS, revealed that the 15 variants were not artefacts of the WGS and that all variants were present in the 2 affected but not in the 2 unaffected individuals. Furthermore we found that 4 of the 15 variants were consistently and uniquely present in all 9 affected but absent in the unaffected family members. We performed association linkage analysis using the 15 markers in the whole family, and confirmed that the phenotype was closely linked to the 4 genes that were inherited as a block spanning the centromere on chromosome 1. We concluded that the region containing these 4 genes most likely harbours the mutation causing the phenotype. Among the 4 candidate genes, 2 were not expressed in erythroid cells, but the other 2 - one encoding an integral membrane protein (LRIG2) and the other one encoding a methyl transferase (ASH1L)- were expressed in erythroid cells. Functional studies for these two genes were performed on primary human erythroid progenitor cells (hEPCs) in culture. In following the kinetics of the 2 candidates during differentiation of hEPCs, we observed that the expression of ASH1L increased at later stages of differentiation, where LRIG2 displayed a less dramatic change of expression. Moreover, ASH1L has previously been found to occupy transcribed chromatin domains and methylate histone tails in vitro (Gregory et al., 2007; Miyazaki et al., 2013; Tanaka et al., 2011). In undifferentiated mouse embryonic stem cells there is no ASH1L recruitment to the β-globin gene locus but upon erythroid differentiation the protein is recruited to the transcribed portion of the gene (Gregory et al., 2007). This suggests an involvement of ASH1L in beta-globin activation in erythroid lineages. We used shRNA lentiviruses to generate knock-down (KD) of ASH1L and obtained over 65-75% KD of the gene. In hEPCs treated with the shRNA lentivirus, we observed a slight decrease in beta-globin expression compared to the control hEPCs. The α/β-globin and α/(β+γ) globin ratios were also affected by the gene knock-down. ChIP-qPCR was performed to assess the enrichment of the ASH1L protein at β-globin promoter region. The results show that enrichment of ASH1L at the β-globin promoter correlates with the β-globin expression in cells. CONCLUSIONS: These results suggest that ASH1L is responsible for the phenotype observed in the English family and act in differentiating hEPCs as a trans-acting factor for full beta-globin gene activation. Further ChIP analysis to assess the binding of the protein to the beta-globin locus during hEPCs differentiation and under KD condition will provide us with a better understanding of the influence of the methyl transferase on β-globin activation. The replication of the patient mutation in vitro using CRISPR technology will provide the model to study fully the impact of the mutation on the phenotype described in the original paper. These findings could provide new insights for therapeutic targets for beta-globinopathies. Disclosures No relevant conflicts of interest to declare.
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Neirinckx, V., A. Hau, A. Schuster, S. Fritah, A. Chevigné, M. H. H. Schmidt et S. P. Niclou. « P11.09 Pan-RTK inhibition of sLRIG1 mediates AXL downregulation in Glioblastoma ». Neuro-Oncology 21, Supplement_3 (août 2019) : iii44. http://dx.doi.org/10.1093/neuonc/noz126.155.

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Abstract INTRODUCTION Aberrant regulation of receptor tyrosine kinase (RTK) activity is characteristic of Glioblastoma (GBM). However, RTK-based targeted therapies have been largely unsuccessful in GBM patients, partially due to the complexity and redundance of RTK signaling. LRIG1 (Leucine-rich Repeats and ImmunoGlobulindomains protein 1) is known as an endogenous inhibitor of epidermal growth factor receptor (EGFR) during health and disease, however its mechanism of action is poorly understood. We previously showed that the soluble form of LRIG1 potently inhibits of GBM growth in vivo, irrespective of EGFR expression level and status, suggesting the involvement of other RTKs. Here, we aimed to shed light on the molecular mechanisms underlying its anti-cancer activity. MATERIAL AND METHODS We generated a recombinant human soluble LRIG1 protein by expressing LRIG1 ectodomain in insect cells via baculovirus infection and subsequent His-tag purification. rh-sLRIG1 was applied in the medium of classical GBM cell lines, patient-derived GBM stem-like cells and patient-derived 3D tumor organoids. Using different cell-based assays, cell proliferation, invasion, cell morphology, as well as protein expression and protein-protein interactions were investigated. RESULTS We find that recombinant sLRIG1 efficiently reduces proliferation, invasion and viability of GBM cells and patient-derived organoids, and modulates cytoskeleton proteins and cell shape. In line with previous data, the effect of recombinant sLRIG1 is independent of EGFR expression. Interestingly sLRIG1 regulates several RTKs by direct protein downregulation, including AXL, while EGFR expression is not affected. At the molecular level, we find that sLRIG1 interferes with AXL dimerization, while no protein interaction with EGFR is detected. CONCLUSION We identify AXL as a novel LRIG1 target and provide evidence that sLRIG1-mediated RTK downregulation requires direct protein-protein interaction. These data pave the way for a potential therapeutic application of recombinant sLRIG1 in the inhibition of growth factor signaling in GBM.
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Neirinckx, Virginie, Ann-Christin Hau, Anne Schuster, Sabrina Fritah, Andy Chevigné, Mirko H. Schmidt et Simone Niclou. « CSIG-04. PAN-RTK INHIBITION OF sLRIG1 MEDIATES AXL DOWNREGULATION IN GLIOBLASTOMA ». Neuro-Oncology 21, Supplement_6 (novembre 2019) : vi44. http://dx.doi.org/10.1093/neuonc/noz175.175.

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Abstract INTRODUCTION Aberrant regulation of receptor tyrosine kinase (RTK) activity is characteristic of Glioblastoma (GBM). However, RTK-based targeted therapies have been largely unsuccessful in GBM patients, partially due to the complexity and redundance of RTK signaling. LRIG1 (Leucine-rich Repeats and ImmunoGlobulin-like domains 1) is an important endogenous inhibitor of epidermal growth factor receptor (EGFR) during health and disease, however its mechanism of action is poorly understood. We previously showed that the soluble form of LRIG1 potently inhibits GBM growth in vivo, irrespective of EGFR expression level and status, suggesting the involvement of other RTKs. Here, we aimed to shed light on the molecular mechanisms underlying its anti-cancer activity. MATERIAL AND METHODS We generated a recombinant human soluble LRIG1 protein (rh-sLRIG1) by expressing LRIG1 ectodomain in insect cells via baculovirus infection and subsequent His-tag purification. rh-sLRIG1 was used to treat patient-derived GBM stem-like cells, classical GBM cell lines and patient-derived 3D tumor organoids. Using different cell-based assays, cell proliferation, invasion, cell morphology, as well as protein expression and protein-protein interactions were investigated. RESULTS We find that recombinant sLRIG1 efficiently reduced proliferation, invasion and viability of GBM cells and patient-derived organoids, and modulated cytoskeleton proteins and cell shape. In line with previous data, the effect of recombinant sLRIG1 was independent of EGFR expression. Interestingly sLRIG1 impacted multiple RTKs including AXL, by direct protein downregulation, while EGFR expression was not affected. At the molecular level, we find that sLRIG1 interfereed with AXL dimerization, while no protein interaction with EGFR was detected. CONCLUSION We identify AXL as a novel LRIG1 target and provide evidence that sLRIG1-mediated RTK downregulation requires direct protein-protein interaction. These data pave the way for a potential therapeutic application of recombinant sLRIG1 in the inhibition of growth factor signaling in GBM.
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Choi, Eunyoung, Tyler L. Lantz, Gregory Vlacich, Theresa M. Keeley, Linda C. Samuelson, Robert J. Coffey, James R. Goldenring et Anne E. Powell. « Lrig1+ gastric isthmal progenitor cells restore normal gastric lineage cells during damage recovery in adult mouse stomach ». Gut 67, no 9 (16 août 2017) : 1595–605. http://dx.doi.org/10.1136/gutjnl-2017-313874.

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ObjectiveLrig1 is a marker of proliferative and quiescent stem cells in the skin and intestine. We examined whether Lrig1-expressing cells are long-lived gastric progenitors in gastric glands in the mouse stomach. We also investigated how the Lrig1-expressing progenitor cells contribute to the regeneration of normal gastric mucosa by lineage commitment to parietal cells after acute gastric injury in mice.DesignWe performed lineage labelling using Lrig1-CreERT2/+;R26R-YFP/+ (Lrig1/YFP) or R26R-LacZ/+ (Lrig1/LacZ) mice to examine whether the Lrig1-YFP-marked cells are gastric progenitor cells. We studied whether Lrig1-YFP-marked cells give rise to normal gastric lineage cells in damaged mucosa using Lrig1/YFP mice after treatment with DMP-777 to induce acute injury. We also studied Lrig1-CreERT2/CreERT2 (Lrig1 knockout) mice to examine whether the Lrig1 protein is required for regeneration of gastric corpus mucosa after acute injury.ResultsLrig1-YFP-marked cells give rise to gastric lineage epithelial cells both in the gastric corpus and antrum, in contrast to published results that Lgr5 only marks progenitor cells within the gastric antrum. Lrig1-YFP-marked cells contribute to replacement of damaged gastric oxyntic glands during the recovery phase after acute oxyntic atrophy in the gastric corpus. Lrig1 null mice recovered normally from acute gastric mucosal injury indicating that Lrig1 protein is not required for lineage differentiation. Lrig1+ isthmal progenitor cells did not contribute to transdifferentiating chief cell lineages after acute oxyntic atrophy.ConclusionsLrig1 marks gastric corpus epithelial progenitor cells capable of repopulating the damaged oxyntic mucosa by differentiating into normal gastric lineage cells in mouse stomach.
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Wang, Yuchun, Liqi Fu, Bo Liu, Xiaomin Wang, Kai Wang et Ming Ye. « Construction of human LRIG1-TAT fusions and TAT-mediated LRIG1 protein delivery ». Biomedicine & ; Pharmacotherapy 69 (février 2015) : 396–401. http://dx.doi.org/10.1016/j.biopha.2014.12.034.

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Shattuck, David L., Jamie K. Miller, Melanie Laederich, Melanie Funes, Heidi Petersen, Kermit L. Carraway et Colleen Sweeney. « LRIG1 Is a Novel Negative Regulator of the Met Receptor and Opposes Met and Her2 Synergy ». Molecular and Cellular Biology 27, no 5 (18 décembre 2006) : 1934–46. http://dx.doi.org/10.1128/mcb.00757-06.

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ABSTRACT The Met receptor tyrosine kinase regulates a complex array of cellular behaviors collectively known as “invasive growth.” While essential for normal development and wound repair, this program is frequently co-opted by tumors to promote their own growth, motility, and invasion. Met is overexpressed in a variety of human tumors, and this aberrant expression correlates with poor patient prognosis. Previous studies indicate that Met receptor levels are governed in part by cbl-mediated ubiquitination and degradation, and uncoupling of Met from cbl-mediated ubiquitination promotes its transforming activity. Here we describe a novel mechanism for Met degradation. We find that the Met receptor interacts with the transmembrane protein LRIG1 independent of hepatocyte growth factor (HGF) stimulation and that LRIG1 destabilizes the Met receptor in a cbl-independent manner. Overexpression of LRIG1 destabilizes endogenous Met receptor in breast cancer cells and impairs their ability to respond to HGF. LRIG1 knockdown increases Met receptor half-life, indicating that it plays an essential role in Met degradation. Finally, LRIG1 opposes Met synergy with the ErbB2/Her2 receptor tyrosine kinase in driving cellular invasion. We conclude that LRIG1 is a novel suppressor of Met function, serving to regulate cellular receptor levels by promoting Met degradation in a ligand- and cbl-independent manner.
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Thèses sur le sujet "LRIG2 protein"

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Nilsson, Jonas. « The LRIG-family : identification of novel regulators of ErbB signaling with clinical implications in astrocytoma / ». Doctoral thesis, Umeå : Department of Radiation Sciences, 2006. http://urn.kb.se/resolve?urn=urn:nbn:se:umu:diva-783.

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Holmlund, Camilla. « Identification and investigations of leucine-rich repeats and immunoglobulin-like domains protein 2 (LRIG2) ». Doctoral thesis, Umeå : Department of Radiation Sciences, Oncology, Umeå university, 2010. http://urn.kb.se/resolve?urn=urn:nbn:se:umu:diva-33784.

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Karlsson, Terese. « The expression and molecular functions of LRIG proteins in cancer and psoriasis ». Doctoral thesis, Umeå universitet, Onkologi, 2013. http://urn.kb.se/resolve?urn=urn:nbn:se:umu:diva-70324.

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The leucine-rich repeats and immunoglobulin-like domains (LRIG) family consists of three integral membrane proteins that are important in human cancer. LRIG1 is a negative regulator of growth factor signaling. Its expression is associated with longer survival in several cancer types, and the gene has been shown to function as a tumor suppressor. The roles of LRIG2 and LRIG3 are less well known. The aim of this thesis was to improve our understanding of the expression and function of the LRIG protein family in psoriasis and cancer. To investigate their expression in psoriasis, the mRNA levels and subcellular localization of the LRIG proteins were analyzed and compared between normal and psoriatic human skin. There were no differences in the LRIG mRNA levels between psoriatic and normal skin samples. However, the subcellular localization of all three LRIG proteins differed between psoriatic and normal skin. To study the physiological and molecular functions of Lrig2, we generated Lrig2E12-/- mice. These mice were viable and born at a Mendelian rate, but Lrig2E12-/- mice had an increased rate of spontaneous mortality and a transient reduction in growth rate compared to Lrig2 wild-type (wt) mice. In an orthotopic platelet-derived growth factor (PDGF)B-driven brain tumor mouse model, we studied the effect of Lrig2 on gliomagenesis. All Lrig2 wt mice developed tumors; 82% developed grade II/III tumors, and 18% developed grade IV tumors. Only 77% of the Lrig2E12-/- mice developed tumors, and they were all grade II/III tumors. Thus, Lrig2 increased the incidence and malignancy rates of PDGFB-driven gliomas. We then analyzed the effect of Lrig2 on Pdgf receptor (Pdgfr) signaling. Lrig2 had no effect on Pdgfr steady-state levels, the starvation-induced up-regulation of Pdgfrs, the phosphorylation of Pdgfrs, primary cilium formation or the PDGFBB-induced phosphorylation of Akt or Erk1/2. However, the kinetics of induction of the immediate-early genes Fos and Egr2 were altered, resulting in a more rapid induction in Lrig2E12-/- cells. We then analyzed the clinical and biological importance of LRIG1 in lung cancer. In a human lung cancer tissue micro-array (TMA), LRIG1 expression was found to be an independent positive prognostic factor for adenocarcinoma. To study the importance of Lrig1 regarding lung cancer development in vivo, we used an inducible EGFRL858R-driven mouse lung cancer model. The mice developed diffuse lung adenocarcinoma, and the tumor burden was greater in Lrig1-/- mice than in Lrig1+/+ mice (p = 0.025) at 60 days. The human lung cancer cell line H1975, with either normal or Tet-induced expression of LRIG1, was injected into the flanks of Balb/cA nude mice. Tumors formed by LRIG1-overexpressing cells were smaller than those formed by parental cells, further indicating that LRIG1 is important during lung tumor formation or growth. In vitro, LRIG1 suppressed the proliferation of H1975 cells and down-regulated the phosphorylation of MET and RET. To investigate the molecular functions of LRIG proteins further, we performed a yeast two-hybrid (YTH) screen using a peptide from the cytosolic tail of LRIG3 as bait. This screen identified LMO7 and LIMCH1 as prominent interaction partners for LRIG3. Proximity ligation assays showed that LMO7 interacted with all of the LRIG proteins at endogenous expression levels. LMO7 and LIMCH1 were expressed in all human tissues analyzed. Their expression was dramatically decreased in lung cancer compared to normal lung tissue. The expression of LMO7 was analyzed in a human lung cancer TMA. LMO7 was expressed in respiratory epithelial cells in normal lungs. However, LMO7 was only expressed in a quarter of the lung tumors. LMO7 expression was found to be an independent negative prognostic factor for lung cancer. In summary, we found that the LRIG proteins were redistributed in psoriatic skin. In a mouse glioma model, Lrig2 promoted oligodendroglioma genesis. LRIG1 was an independent positive prognostic factor in human lung cancer. Lrig1 ablation increased the tumor size in an EGFRL858R-driven lung cancer mouse model. LRIG1 expression decreased the tumor growth of human lung cancer cells in a xenograft mouse model. LMO7 interacted with all three LRIG proteins and was an independent negative prognostic factor in human lung cancer. These data demonstrate the importance of LRIG proteins in human disease.
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Ljuslinder, Ingrid. « Studies of LRIG1 and the ERBB receptor family in breast and colorectal cancer ». Doctoral thesis, Umeå : Umeå university, 2009. http://urn.kb.se/resolve?urn=urn:nbn:se:umu:diva-25678.

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Hösl, Christine [Verfasser], et Dietmar [Akademischer Betreuer] Martin. « The ERBB receptor network and the role of the LRIG protein family in skin during development, homeostasis and tumorigenesis / Christine Hösl ; Betreuer : Dietmar Martin ». München : Universitätsbibliothek der Ludwig-Maximilians-Universität, 2019. http://d-nb.info/1221524267/34.

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Actes de conférences sur le sujet "LRIG2 protein"

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Razumova, Z., H. Oda, I. Govorov, E. Lundin, E. Östensson, D. Lindquist et M. Mints. « EP609 The prognostic role of LRIG proteins in endometrial cancer ». Dans ESGO Annual Meeting Abstracts. BMJ Publishing Group Ltd, 2019. http://dx.doi.org/10.1136/ijgc-2019-esgo.666.

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Karlsson, Terese, Samuel Kvarnbrink, Camilla Holmlund, Johan Botling, Patrick Micke, Mikael Johansson, Roger Henriksson et Håkan Hedman. « Abstract 5315 : Interactions between LRIG proteins and LMO7 and the expression of LMO7 in human lung cancer. » Dans Proceedings : AACR 104th Annual Meeting 2013 ; Apr 6-10, 2013 ; Washington, DC. American Association for Cancer Research, 2013. http://dx.doi.org/10.1158/1538-7445.am2013-5315.

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Wu, Xuping, Håkan Hedman, Michael Bergqvist, Stefan Bergström, Roger Henriksson, Joachim Gullbo, Johan Lennartsson, Patrik Hesselius et Simon Ekman. « Abstract A42 : Characterization of EGFR and leucine‐rich repeats and immunoglobulin‐like domain proteins (LRIG1–3) in esophageal carcinoma with emphasis on patient survival ». Dans Abstracts : AACR-NCI-EORTC International Conference : Molecular Targets and Cancer Therapeutics--Nov 15-19, 2009 ; Boston, MA. American Association for Cancer Research, 2009. http://dx.doi.org/10.1158/1535-7163.targ-09-a42.

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