Academic literature on the topic 'Porphyry of Gaza'

The study attempts to determine the economic condition of a small provincial bishopric, namely the church of Gaza (Palestine) during the rule of bishop Porphyry (circa 395–420 AD). All of the information on the subject comes from the Vita Porphyrii by Mark the Deacon – a source whose historical value has often been disputed. Although the information on the wealth of the church in Gaza at the turn of the 4th and 5th centuries is not particularly vast or illuminating, it is nevertheless possible to identify several spheres of economic activity of the Gaza bishopric. These are, among other things, the property owned by the bishopric (real estate), its cash reserves (mostly at the beginning of the 5th century), the endowments of the imperial court (given by emperor Arcadius and his wife, empress Aelia Eudoxia), as well as the charitable activity of the bishopric (especially on the occasion of erecting the Eudoxiane, probably in 407).

γ-Aminobutyric acid (GABA) participates in the regulation of adaptability to abiotic stress in plants. The objectives of this study were to investigate the effects of GABA priming on improving thermotolerance in creeping bentgrass (Agrostis stolonifera) based on analyses of physiology and proteome using iTRAQ technology. GABA-treated plants maintained significantly higher endogenous GABA content, photochemical efficiency, performance index on absorption basis, membrane stability, and osmotic adjustment (OA) than untreated plants during a prolonged period of heat stress (18 days), which indicated beneficial effects of GABA on alleviating heat damage. Protein profiles showed that plants were able to regulate some common metabolic processes including porphyrin and chlorophyll metabolism, glutathione metabolism, pyruvate metabolism, carbon fixation, and amino acid metabolism for heat acclimation. It is noteworthy that the GABA application particularly regulated arachidonic acid metabolism and phenylpropanoid biosynthesis related to better thermotolerance. In response to heat stress, the GABA priming significantly increased the abundances of Cu/ZnSOD and APX4 that were consistent with superoxide dismutase (SOD) and ascorbate peroxidase (APX) activities. The GABA-upregulated proteins in relation to antioxidant defense (Cu/ZnSOD and APX4) for the reactive oxygen species scavenging, heat shock response (HSP90, HSP70, and HSP16.9) for preventing denatured proteins aggregation, stabilizing abnormal proteins, promoting protein maturation and assembly, sugars, and amino acids metabolism (PFK5, ATP-dependent 6-phosphofructokinase 5; FK2, fructokinase 2; BFRUCT, β-fructofuranosidase; RFS2, galactinol-sucrose galactosyltransferase 2; ASN2, asparagine synthetase 2) for OA and energy metabolism, and transcription factor (C2H2 ZNF, C2H2 zinc-finger protein) for the activation of stress-defensive genes could play vital roles in establishing thermotolerance. Current findings provide an illuminating insight into the new function of GABA on enhancing adaptability to heat stress in plants.

Abstract Although the importance of GATA-1 in both primitive and definitive hematopoietic lineages has been shown in vivo, the precise roles played by GATA-1 during definitive hematopoiesis have not yet been clarified. In vitro differentiation of embryonic stem (ES) cells using OP9 stroma cells can generate primitive and definitive hematopoietic cells separately, and we have introduced a method that separates hematopoietic progenitors and differentiated cells produced in this system. Closer examination showed that the expression of erythroid transcription factors in this system is regulated in a differentiation stage-specific manner. Therefore, we examined differentiation of GATA-1 promoter-disrupted (GATA-1.05) ES cells using this system. Because the GATA-1.05 mice die by 12.5 embryonic days due to the lack of primitive hematopoiesis, the in vitro analysis is an important approach to elucidate the roles of GATA-1 in definitive hematopoiesis. Consistent with the in vivo observation, differentiation of GATA-1.05 mutant ES cells along both primitive and definitive lineages was arrested in this ES cell culture system. Although the maturation-arrested primitive lineage cells did not express detectable amounts of ɛy-globin mRNA, the blastlike cells accumulated in the definitive stage showed β-globin mRNA expression at approximately 70% of the wild type. Importantly, the TER119 antigen was expressed and porphyrin was accumulated in the definitive cells, although the levels of both were reduced to approximately 10%, indicating that maturation of definitive erythroid cells is arrested by the lack of GATA-1 with different timing from that of the primitive erythroid cells. We also found that the hematopoietic progenitor fraction of GATA-1.05 cells contains more colony-forming activity, termed CFU-OP9. These results suggest that theGATA-1.05 mutation resulted in proliferation of proerythroblasts in the definitive lineage.

Although the importance of GATA-1 in both primitive and definitive hematopoietic lineages has been shown in vivo, the precise roles played by GATA-1 during definitive hematopoiesis have not yet been clarified. In vitro differentiation of embryonic stem (ES) cells using OP9 stroma cells can generate primitive and definitive hematopoietic cells separately, and we have introduced a method that separates hematopoietic progenitors and differentiated cells produced in this system. Closer examination showed that the expression of erythroid transcription factors in this system is regulated in a differentiation stage-specific manner. Therefore, we examined differentiation of GATA-1 promoter-disrupted (GATA-1.05) ES cells using this system. Because the GATA-1.05 mice die by 12.5 embryonic days due to the lack of primitive hematopoiesis, the in vitro analysis is an important approach to elucidate the roles of GATA-1 in definitive hematopoiesis. Consistent with the in vivo observation, differentiation of GATA-1.05 mutant ES cells along both primitive and definitive lineages was arrested in this ES cell culture system. Although the maturation-arrested primitive lineage cells did not express detectable amounts of ɛy-globin mRNA, the blastlike cells accumulated in the definitive stage showed β-globin mRNA expression at approximately 70% of the wild type. Importantly, the TER119 antigen was expressed and porphyrin was accumulated in the definitive cells, although the levels of both were reduced to approximately 10%, indicating that maturation of definitive erythroid cells is arrested by the lack of GATA-1 with different timing from that of the primitive erythroid cells. We also found that the hematopoietic progenitor fraction of GATA-1.05 cells contains more colony-forming activity, termed CFU-OP9. These results suggest that theGATA-1.05 mutation resulted in proliferation of proerythroblasts in the definitive lineage.

AbstractCongenital erythropoietic porphyria (CEP), an autosomal recessive disorder, is due to mutations of uroporphyrinogen III synthase (UROS). Deficiency of UROS results in excess uroporphyrin I, which causes photosensitization. We evaluated a 3-year-old boy with CEP. A hypochromic, microcytic anemia was present from birth, and platelet counts averaged 70 × 109/L (70 000/μL). Erythrocyte UROS activity was 21% of controls. Red cell morphology and globin chain labeling studies were compatible with β-thalassemia. Hb electrophoresis revealed 36.3% A, 2.4% A2, 59.5% F, and 1.8% of an unidentified peak. No UROS or α- and β-globin mutations were found in the child or the parents. The molecular basis of the phenotype proved to be a mutation of GATA1, an X-linked transcription factor common to globin genes and heme biosynthetic enzymes in erythrocytes. A mutation at codon 216 in the child and on one allele of his mother changed arginine to tryptophan (R216W). This is the first report of a human porphyria due to a mutation in a trans-acting factor and the first association of CEP with thalassemia and thrombocytopenia. The Hb F level of 59.5% suggests a role for GATA-1 in globin switching. A bone marrow allograft corrected both the porphyria and the thalassemia.

Abstract Abstract 3441 Transcription factor GATA1 regulates a set of genes essential for the erythroid and megakaryocytic cell differentiation through the interaction with GATA motifs (consensus sequence: A/TGATAA/T). Two zinc fingers within GATA1 have been identified to be important in the DNA binding of GATA1, which are referred to as C-finger (CF) and N-finger (NF) domains. It has been shown that transactivation activity of GATA1 is completely abolished upon deletion of the CF domain, indicating that the CF domain is a requisite for the DNA binding of GATA1. While conventional reporter transactivation analyses hardly clarified the importance of the NF domain for the DNA binding, substitution mutations on 216th arginine (R216) located in the DNA-interacting surface of the NF domain have been identified to cause familial diseases of thrombocytopenia, thalassemia, and porphyria. As a consequence of the substitution of R216 to glutamine (Q) or tryptophan (W), DNA binding activity of GATA1 to a palindromic configuration of two GATA motifs (palindromic GATA) was largely diminished, while that to a single GATA motif was maintained. In this study we have examined the DNA binding diversity of GATA1 caused by the difference in the configuration of GATA motifs. We performed surface plasmon resonance (SPR) analyses of GATA1 to a single GATA, a palindromic GATA, and a repeating configuration of two GATA motifs (tandem GATA). We found that GATA1 binds to the palindromic GATA motif in a bivalent way, while it binds to the single GATA motif in a monovalent mode. We also found that a double quantity of GATA1 is associated with the tandem GATA motif and GATA1 lacking the NF domain binds to any configurations of GATA motif in a monovalent way. To further investigate contribution of the NF domain to the binding mode of GATA1, we have constructed two types of GATA1 mutants; one type was the substitution mutations on R216 (R216Q and R216W) that were mouse homologues of the human mutations, while the other type was the alanine substitution mutation on three lysine residues (K245, K246 and K312; referred to as 3KA mutant), whereby dimerization potential of GATA1 was reduced to trace level similar to the case for GATA1 lacking the NF domain. Impotantly, R216Q and R216W mutants bind the palindromic GATA motif in a monovalent way, while these mutants bind normally to the other configuration of GATA motifs. In contrast, we found that one molecule of 3KA mutant bound to the tandem GATA motif and this observation seems to explain well the fact that dimerization potential of GATA1 is an important requisite for the full-function of GATA1 in embryos. The binding modes of this 3KA mutant to the other configurations were not influenced. These results thus demonstrate that the both NF and CF domains recognize the multiple configurations of GATA motifs and specify the binding modes of GATA1. Importantly, GATA1-deficient mice rescued with R216Q were lethal during late gestation period due to abnormality in erythroid differentiation, indicating that the contribution of the NF domain to the recognition of the palindromic GATA motif configuration indeed functions in vivo. These results thus support our contention that the NF domain acts to regulate a proper spatio-temporal gene expression of a subset of GATA1 target genes utilizing the variations in the GATA motif configuration. Disclosures: No relevant conflicts of interest to declare.

Abstract Germline mutations in the X-linked hematopoietic transcription factor, GATA-1, have been associated with dyserythropoietic anemia (DEA), macrothrombocytopenia (MTP), and congenital erythropoietic porphyria. Recently, morphological features suggestive of the Gray Platelet Syndrome (GPS) were described in a pedigree with a germline R216Q GATA-1 mutation (Blood106:6a, 2005). The present study has evaluated platelets (Pl) in the electron microscope from members of a previously described pedigree (Blood98:2681–2688, 2001) with GATA-1 G208S, MTP, and dyserythropoiesis without anemia, for whom detailed platelet morphology studies have not been reported. The presence of a hemizygous GATA-1 mutation was confirmed by conventional fluorescent dye chemistry sequencing of DNA from patient peripheral blood mononuclear cells. Their Pl revealed wide variations in size, shape, internal and external structure. Some normal sized and giant Pl contained usual numbers of alpha granules and dense bodies, while most of the large cells were hypogranular. Some contained no membrane systems or organelles. Others were filled with masses of dense tubular system (DTS) channels, and others contained the tubular inclusions found in the Medich Giant Platelets Disorder (Platelets15:345–353, 2004). Many of the hypogranular cells contained small vacuoles that may have been enclosing membranes of alpha granules. Except for the tubular inclusions, all of these structural variations are observed in GPS Pl (Am. J. Pathol.95:445–462, 1979). However, additional striking abnormalities were seen in GATA-1 Pl that are not characteristic of GPS Pl. Many GATA-1 Pl contained unusual, closely associated dense double membranes differing from normal elements of rough endoplasmic reticulum, smooth endoplasmic reticulum, DTS or surface connected open canalicular system (OCS), but resembling channels of the OCS after exposure to EDTA. They were observed previously only in megakaryocytes (Mk) from one family with GATA-1 DEA-MTP (Nat. Genet, 24:266–270, 2000). The dense double membranes were often found in parallel association and, in some examples, isolating areas of cytoplasm. However, the isolated areas were not undergoing autophagic degradation as such areas enclosed by elements of the DTS do in White Platelet Syndrome Pl (Platelets 15:173,2004). Instead, they proved to be another unique feature of GATA-1 platelets, the presence of Pl within Pl. The sequestered cells were usually mature in appearance and often discoid in form with circumferential coils of microtubules. In some GATA-1 Pl there were two Pl within the same cell, and on rare occasions, a Pl within a Pl within a Pl. Pl within Pl have never been observed previously in any human platelet disorder. Another unique feature, related to Pl within Pl, was the frequent Pl to Pl surface attachment of non-activated cells forming large macrothrombocytes with no similarity to aggregates of stimulated normal platelets. Conclusion: The substructural abnormalities of Pl from patients with germline GATA-1 mutations share some overlap with those seen in GPS Pl, but are distinct and unique. The MTP, Pl within Pl and surface Pl to Pl attachments suggest a major defect in the formation and separation of GATA-1 Pl from pro-Pl of the parent Mk, resulting in the MTP characteristic of the disorder.

La Vie de Porphyre de Gaza (BHG³ 1570) se présente comme un texte hagiographique de l’époque protobyzantine écrit par Marc le Diacre. Ce personnage se désigne lui-même comme le disciple du saint qui raconte la vie de son maître après sa mort en 420. Pourtant, à cause d’un emprunt à l’Histoire Philothée de Théodoret de Cyr, la Vie dans son état actuel est certainement postérieure à l’année 444 et ne peut pas provenir de la plume de Marc, qui n’est que le narrateur. Selon l’hypothèse des éditeurs Grégoire et Kugener, la Vie actuelle est le fruit du remaniement d’un texte plus ancien. Le texte nous offre un témoignage unique sur l’histoire du paganisme et du christianisme à Gaza à la fin du IVe et au début du Ve s. Ordonné évêque de Gaza en 395, Porphyre contribue activement à la christianisation de la ville, qui était alors majoritairement païenne. Le point culminant de son activité est la démolition du Marneion et la fondation sur ses débris de la « Grande Église » de Gaza. Cependant, outre les problèmes concernant l’identité de son auteur et sa datation, la Vie s’est trouvée dès l’époque de Tillemont au centre d’un grand débat concernant sa valeur historique, à cause des anachronismes qui ont été relevés. Dans le cadre de notre thèse, nous avons entrepris une nouvelle édition critique du texte, accompagnée d’une traduction française. La brève étude littéraire du texte est suivie par un commentaire historique guidé par le problème d’authenticité que pose la Vie. L’édition critique est précédée d’un examen de la tradition directe et indirecte du texte. Finalement, les notes de la traduction visent à faire ressortir sa valeur documentaire
The Life of Porphyry of Gaza (BHG³ 1570) is a hagiographical text of the protobyzantine period written by Mark the Deacon. He introduces himself as the saint’s loyal disciple, who narrates his master’s life after his death in 420. However, due to the plagiarism of Theodoret of Cyrrhus’s Philotheos History, the current form of the Vita dates certainly later than 444 and cannot have been written by Mark, who is just the narrator. According to the hypothesis of the editors Grégoire and Kugener, the current form of the Vita is the result of the revision of an older text. The text provides us with a unique account of the history of paganism and christianism in Gaza at the end of the 4th and the beginnings of the 5th century. Appointed bishop of Gaza in 395, Porphyry contributes actively to the christianisation of the city, which was largely pagan. The peak of his activity is the demolition of the Marneion and the erection of the “Great Church” of Gaza on the site of the former temple. However, in addition to the problems concerning its authorship and its datation, the Vita was found in the centre of a great debate concerning its historical value since the time of Tillemont. In the frame of our PhD thesis, we undertook a new critical edition, accompanied by a french translation. The brief literary study of the text is followed by a historical commentary guided by the problem of the Vita’s authenticity. The critical edition is preceded by an examination of the direct and the indirect text tradition. Finally, the notes of the translation aim to reveal its documentary value

ABSTRACT The porphyrias are a diverse group of metabolic disorders arising from diminished activity of enzymes in the heme biosynthetic pathway. They can present with acute neurovisceral symptoms, cutaneous symptoms, or both. The complexity of these disorders is demonstrated by the fact that some acute porphyria patients with the underlying genetic defect(s) are latent and asymptomatic while others present with severe symptoms. This indicates that there is at least one other risk factor required in addition to the genetic defect for symptom manifestation. A systematic review of the heme biosynthetic pathway highlighted the involvement of a number of micronutrient cofactors. An exhaustive review of the medical literature uncovered numerous reports of micronutrient deficiencies in the porphyrias as well as successful case reports of treatments with micronutrients. Many micronutrient deficiencies present with symptoms similar to those in porphyria, in particular vitamin B6. It is hypothesized that a vitamin B6 deficiency and related micronutrient deficiencies may play a major role in the pathogenesis of the acute porphyrias. In order to further investigate the porphyrias, a computational model of the heme biosynthetic pathway was developed based on kinetic parameters derived from a careful analysis of the literature. This model demonstrated aspects of normal heme biosynthesis and illustrated some of the disordered biochemistry of acute intermittent porphyria (AIP). The testing of this model highlighted the modifications necessary to develop a more comprehensive model with the potential to investigated hypotheses of the disordered biochemistry of the porphyrias as well as the discovery of new methods of treatment and symptom control. It is concluded that vitamin B6 deficiency might be the risk factor necessary in conjunction with the genetic defect to trigger porphyria symptoms.

Ce travail constitue une caractérisation des films de Langmuir-Blodgett par résonance paramagnétique électrique et par diffusion Raman résonante en lumière polarisée. Les films sont constitués de multicouches, mixtes ou alternées, de porphyrines amphiphiles et d'acide docosanoïque. Le sujet porte sur l'orientation des macrocycles porphyriniques par rapport au substrat supportant les couches