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11	Efeito da progesterona na expressão de genes envolvidos no estresse oxidativo e defesa antioxidante em células beta pancreáticas: uma abordagem in vitro para o estudo do diabetes gestacional / Progesterone effect on the genes expression involved on oxidative stress and antioxidant defense in pancreatic beta cells: an in vitro approach to the study of gestational diabetes Nathalia Ruder Borçari 16 March 2018 (has links) O diabetes gestacional (DG) é uma condição definida como intolerância a carboidratos e hiperglicemia, com início no segundo trimestre da gravidez. Trabalhos desenvolvidos por nosso grupo mostraram que a progesterona (PG) é capaz de causar a morte de células pancreáticas, por um mecanismo dependente da geração de radicais livres, o que poderia contribuir para o desenvolvimento do DG. O objetivo desse trabalho foi estudar o efeito da PG, na presença ou não de antioxidantes, na expressão de genes relacionados ao estresse oxidativo e na defesa oxidante em células pancreáticas da linhagem RINm5F. As células foram incubadas com PG 0,1, 1,0 e 100 &#181M por 6 ou 24 h, na presença ou não dos antioxidantes vitamina E e C. Após a incubação, foram realizados ensaios de viabilidade celular e fragmentação do DNA. A PG, não causou perda da integridade da membrana das células RINm5F, porém, ela promoveu fragmentação do DNA em, aproximadamente, 40% das células RINm5F e MCF-7 (controle positivo), enquanto que os antioxidantes vitamina E e C reduziram tal fragmentação. A partir da extração do RNA e síntese de cDNA foi investigada a expressão de 84 genes envolvidos no estresse oxidativo e defesa antioxidante. Dos 84 genes, cinco deles tiveram sua expressão aumentada em no mínimo, duas vezes em, pelo menos, duas concentrações diferentes, independentemente do tempo de incubação, ou nas mesmas concentrações em tempos diferentes, como os que codificam para a proteína de choque térmico a1a (Hspa1a), glutationa peroxidase 6 (Gpx6), dual oxidase 1 (Duox1), heme oxigenase 1(Hmox1) e estearoil-CoA desaturase 1 (Scd1). Esses genes, juntamente com a peroxirredoxina 4 (Prdx4), desempenham importante papel na fisiologia da célula pancreática e/ou DG. A expressão desses genes também foi estudada na pré-incubação das células RINm5F com as vitaminas E e C. Tais antioxidantes, de forma geral, foram capazes de aumentar a expressão de Hmox1 e Prdx4, genes com funções antioxidantes, e de diminuir de Scd1, um gene com função pró- oxidante. Ao nível citoplasmático, verificou-se que as quantidades das proteínas Hmox1 e Prdx4 também foram moduladas pela da PG e/ou vitamina E e C. Os resultados sugerem que esses antioxidantes apresentam importante papel na proteção da células RINm5F contra o dano oxidativo induzido pela PG. Desta forma, os resultados obtidos nesse projeto, em conjunto, devem colaborar para melhor compreensão da patogênese do DG, abrindo novas perspectivas não só para elucidação do mecanismo molecular envolvido na ação da PG sobre células pancreáticas e sua relação com o DG, mas para o desenvolvimento de estratégias de prevenção e tratamento dessa doença baseadas na terapia com antioxidantes / Gestational diabetes (GD) is a condition defined as carbohydrate intolerance and hyperglycemia, beginning in the second trimester of pregnancy. Studies developed by our group have shown that progesterone (PG) is able to cause pancreatic cells death, by a mechanism dependent on the generation of free radicals, which could contribute to the development of GD. The aim of this work was to study the effect of PG, in the presence or absence of antioxidants, on the expression of genes related to oxidative stress and oxidant defense in pancreatic cells of the RINm5F lineage. Cells were incubated with 0.1, 1.0 and 100 µM PG for 6 or 24 h, in the presence or absence of vitamin E and C antioxidants. PG did not cause loss of membrane integrity of RINm5F cells, however, it promoted DNA fragmentation in approximately 40% of the RINm5F and MCF-7 cells (positive control), whereas vitamin E and C antioxidants reduced such fragmentation. From the RNA extraction and cDNA synthesis was investigated the expression of 84 genes involved in oxidative stress and antioxidant defense. Among of 84 investigated genes, five of them had their expression increased, in the minimum 2-fold in, at least, two different concentrations independent of incubation time (6 or 24 h), or at the same concentrations at different times, such as those that encoding for heat shock protein a1a (Hspa1a), glutathione peroxidase 6 (Gpx6), dual oxidase 1 (Duox1), heme oxygenase 1 (Hmox1) and stearoyl-CoA denaturase 1 (Scd1). These genes, together with the peroxiredoxin 4 (Prdx4), play an important role in pancreatic cell physiology and/or DG. The gene expression was also studied in the preincubation of RINm5F cells with vitamin E and C. These antioxidants were generally able to increase the Hmox1 and Prdx4 expression, genes with antioxidant functions, and decrease the Scd1 expression, a gene with pro-oxidant function. At the cytoplasmic level, it was found that the amounts of Hmox1 and Prdx4 proteins were also modulated by PG and / or vitamin E and C. The results suggest that these antioxidants play an important role in the RINm5F protection cells against the oxidative damage induced by PG. Thus, the results obtained in this project, together, should contribute to a better understanding of the pathogenesis of DG, opening new perspectives not only to elucidate the molecular mechanism involved in the action of PG on pancreatic cells and its relationship with DG, but for the development of strategies for the prevention and treatment of this disease based on antioxidant therapy Defesa Antioxidante Diabetes gestacional Estado Redox Estresse Oxidativo Progesterona Antioxidant Defense Gestational Diabetes Oxidative Stress Progesterone Redox State
12	Modulação do estado redox em ilhotas pancreáticas e sua implicação na secreção de insulina. / Redox modulation in pancreatic islets and its implication for insulin secretion. Eduardo Rebelato Lopes de Oliveira 24 June 2010 (has links) O efeito de alterações no estado de óxido-redução (redox), tanto pelo aumento no estado oxidativo quanto pelo aumento no estado redutor, foi avaliado sobre a funcionalidade de ilhotas pancreáticas, através da análise da secreção de insulina estimulada pela glicose (GSIS), metabolismo da glicose e oscilações intracelulares de cálcio. O aumento no estado oxidativo inibiu a funcionalidade da célula pancreática. Entretanto, diminuição no estado oxidativo pela adição de antioxidantes exerceu efeito dual sobre a funcionalidade da célula <font face=\"Symbol\">&#946 pancreática, na qual pequenas alterações no estado redox estimularam a GSIS, enquanto alterações maiores suprimiram este efeito positivo. Adicionalmente, o conteúdo das espécies reativas de oxigênio (EROs) foi modulado por mudanças na concentração de glicose. Agudamente, o aumento na concentração de glicose suprimiu o conteúdo de EROs, que pôde ser correlacionada com o aumento na atividade da via de formação de NADPH, a via das pentoses-fosfato. Sob estes aspectos, alterações no estado redox podem ser parte do processo da GSIS. / The effect of changes in the oxidation/reduction (redox) state over pancreatic islet function was analyzed by shifts toward oxidative or reducing environments. Pancreatic cell function was analyzed by glucose-stimulated insulin secretion (GSIS), glucose metabolism and intracellular calcium oscillations. Redox modulation favoring the oxidative state inhibited pancreatic cell function. However, the suppression of the oxidative state by antioxidant treatment exerted a dual effect on pancreatic <font face=\"Symbol\">&#946 cell function, where small changes were positively correlated with an increase in insulin secretion, while higher changes suppressed GSIS. Additionally, the reactive oxygen species (ROS) content was modulated by changes in glucose concentration. Increasing concentrations of glucose acutely suppressed ROS content, what was correlated with the activation of the NADPH source, the pentose-phosphate pathway. Thus, the intracellular adjustment of ROS content may be part of the insulin secretion mechanism in response to glucose. Estado Redox Fisiologia Ilhotas de Langerhans Insulina Metabolismo da glicose Secreção Glucose metabolism insulin Islets of Langerhans Physiology Redox state Secretion
13	Structural and functional studies of mitochondrial small Tim proteins Guo, Liang January 2013 (has links) Most mitochondrial proteins are encoded by nuclear DNA, and synthesised in the cytosol, then imported into the different mitochondrial subcompartments. To reach their destination, mitochondrial inner membrane proteins require import across the outer mitochondrial membrane, and through the intermembrane space. This passage through the IMS is assisted by the small Tim proteins. This family is characterised by conserved cysteine residues arranged in a twin CX3C motif. They can form Tim9-Tim10 and Tim8-Tim13 complexes, while Tim12 appears to form part of a Tim9-Tim10-Tim12 complex that is associated with the inner membrane translocase TIM22 complex. Current models suggest that the biogenesis of small Tim proteins and their assembly into complexes is dependent on the redox states of the proteins. However, the role of the conserved cysteine residues, and the disulphide bonds formed by them, in small Tim biogenesis and complex formation is not clear. As there is no research about the structural characterisation of Tim12 and double cysteine mutants of Tim9, purification of these proteins was attempted using different methods. To investigate how cysteine mutants affect complex formation, the purified double cysteine mutants of Tim9 were studied using in vitro methods. It showed that the double cysteine mutants were partially folded, and they can form complexes with Tim10 with low affinities, suggesting disulphide bonds are important for the structures and complex formation of small Tim proteins. The effect of cysteine mutants on mitochondrial function was addressed using in vivo methods. It showed that cysteines of small Tim proteins were not equally essential for cell viability, and growth defect of the lethal cysteine mutant was caused by low level of protein. Thus, the conclusion of this study is that disulphide bond formation is highly important for correct Tim9- Tim10 complex formation, and yeast can survive with low levels of complex, but it results in instability of the individual proteins. 572.8
14	Dynamique d’assemblage des protéines de réserve et du remplissage du grain de blé dur / Dynamic of the assembly of storage proteins and grain filling of durum wheat. Simoes Larraz Ferreira, Mariana 17 May 2011 (has links) Le blé dur, du fait de sa vitrosité et de sa richesse en protéines est particulièrement adapté àla fabrication des pâtes alimentaires. Cette céréale, largement cultivée dans le bassinméditerranéen, est fréquemment soumise à des stress hydriques et thermiques. Les objectifsde cette thèse ont été d'approfondir les connaissances sur les modalités d'accumulation etd'assemblage des protéines de réserve au cours du développement du grain. Un suivi fin duremplissage du grain, de la morphologie des corps protéiques, des changements d'état redox etde la distribution en taille des polymères de gluténines a été réalisé. L'influence, sur cesdifférents paramètres, de températures élevées appliquées à différents stades dedéveloppement du grain a été étudiée.En privilégiant l'accumulation des protéines au détriment de l'amidon, le stress thermiquejoue un rôle non négligeable dans l'obtention de grains vitreux et à fortes teneurs en protéines.L'arrêt de la croissance du grain, observé à 45% de teneur en eau, est précédé de la mise enplace de la matrice protéique. L'accumulation de la matière sèche apparaît étroitement liée à ladynamique de l'eau, confirmant le lien entre teneur en eau et poids final du grain. Au cours duremplissage du grain, les températures élevées exercent un effet significatif sur la formationdes polymères de gluténines insolubles dans le SDS. Leur formation n'intervient qu'en fin dedessiccation et en deçà de 30% de teneur en eau. La durée de cette phase ultime d'oxydation etd'assemblage des polymères de gluténines a été reliée à la teneur en protéines.L'évolution du statut redox du grain montre qu'une accumulation massive de polymères degluténines intervient juste avant l'entrée en dessiccation du grain qui coïncide avecl'effondrement de l'ascorbate dans le grain. Coïncidant avec cette oxydation manifeste, unphénomène de glutathionylation des protéines a été détecté avec une rupture de l'activité de laCAT. Au cours de la dessiccation, les activités de la SOD et de la GR augmentent de façonsignificative. Cette synthèse tardive pourrait se produire au niveau de la couche à aleurone etdu germe en réponse à l'oxydation massive de l'albumen.Enfin, nous avons analysé le couplage entre oxydation des thiols protéiques et croissance entaille des polymères de gluténines. Très précocement, les sous-unités de gluténiness'assemblent sous forme d'oligomères partiellement réduits. Durant le remplissage du grain,une oxydation massive des thiols intervient avec la formation de polymères majoritairementcomposés de SG-HPM sur lesquels viendraient se fixer les SG-FPM. Au cours de la dessiccation,la taille des polymères augmente. Les structures polymériques formées au cours del'élaboration du grain possèdent un nombre de cystéines réduites élevé et incompatible avecun modèle d'assemblage linéaire. Les résultats obtenus nous permettent de proposer unrepliement tardif des SG-FPM, postérieur à leur insertion dans les assemblages oligomériques.Ils nous amènent à mettre en avant le rôle du glutathion comme co-facteur de la genèse despolymères, à l'opposé des thèses classiques qui en font plutôt un inhibiteur de la croissance entaille des polymères de gluténines. / Durum wheat is particularly recognized as the most suitable raw material for pasta makingdue to its vitreousness and its high protein content. This cereal is commonly grown inMediterranean environment and then frequently submitted to high temperature and waterstress. The aim of this thesis was to better understand the accumulation and assembly ofstorage proteins during the grain development. Evaluation of the grain filling, the morphologyof protein bodies, the redox status and the size distribution of glutenin polymers were carriedout. The effect of high temperatures applied at different stages of the grain development onthese parameters was studied.By favouring protein accumulation at the expense of starch, heat stress appeared essentialto obtain vitreous grains and high protein content. The arrest of grain growth observed at 45%grain water content is preceded by the formation of a continuous protein matrix. The dry massaccumulation is closely related to water dynamics, confirming the link between water contentand final grain weight. During grain filling, high temperatures have a significant effect on theformation of SDS-insoluble glutenin polymers. It occurred when grain water concentrationdropped below 30%. The duration of this final stage of oxidation and assembly of gluteninpolymers was related to protein content.Changes in the grain redox status showed an accumulation of glutenin polymers mainlyoccurring before the onset of grain desiccation phase and coinciding with the ascorbateoxidation. This clear oxidation coincided also with the glutathionylation of proteins and thedrop of the CAT activity. During desiccation, the activities of SOD and GR increased significantly.This late synthesis could occur in the aleurone layer and germ in response to massive oxidationof the endosperm cells.Finally, we evaluated the coupling between protein thiol oxidation and size increase ofglutenin polymers. In the early stages, glutenin subunits assembled as oligomers partiallyreduced. During grain filling, a strong thiol oxidation took place with the formation of polymersmainly composed of HMW-GS associated with LMW-GS branching. The polymer size increasedduring desiccation. The polymeric structures obtained during the grain development presenteda high number of reduced cysteines inconsistent with a linear concatenation model ofassembly. It allowed us to propose that the folding of LMW-GS is a late event, subsequent totheir insertion into oligomeric assemblies. These results highlighted the role of glutathione asco-factor in the polymers formation, contrasting with the common assumption that considers itas an inhibitor of the size increase of glutenin polymers. Blé dur Remplissage du grain Protéines de réserve Assemblage de polymères Etat redox Vitrosité Durum Wheat Grain filling Storage proteins Polymers assembly Redox state Vitreousness
15	Metabolismo oxidativo e estado redox tecidual dependente da função e do estado nutricional de operárias de Apis mellifera L. / Oxidative metabolism and redox state dependent on the function and nutritional status of Apis mellifera L. workers Cervoni, Mário Sergio 03 December 2018 (has links) As operárias de Apis mellifera realizam diferentes tarefas de acordo com a sua idade (polietismo etário), sendo que operárias jovens cuidam da cria e quando mais velhas forrageiam. Entretanto, tal transição não segue uma cronologia fixa, mas se ajusta às necessidades da colônia, especialmente as condições nutricionais, tanto da colônia quanto dos indivíduos. Nesse sentido, abordamos a questão de como o metabolismo oxidativo no corpo gorduroso das operárias, i.e., o centro do metabolismo intermediário destes insetos, está relacionado com alterações da função das operárias na colônia e como o mesmo responde a um estresse nutritivo imposto individualmente em duas fases, na fase larval e na fase adulta. Como métodos para avaliar a atividade mitocondrial e o estado redox das células do corpo gorduroso utilizamos um sistema de respirometria de alta resolução para medir o consumo de O2, e realizamos ensaios bioquímicos para quantificar a geração de espécies reativas de oxigênio (EROs), os níveis de óxido nítrico, o número de unidades mitocondriais, e eventuais danos oxidativos resultantes. Ademais, por meio de PCR quantitativa medimos a expressão relativa de genes ligados à biogênese mitocondrial, ao sistema antioxidante e à via de sinalização por hipóxia. Na comparação destes parâmetros entre operárias nutridoras e forrageiras avaliamos separadamente os três principais compartimentos do corpo (cabeça, tórax e abdômen) uma vez que esses estão diferencialmente relacionados a tais funções. Para os tecidos da cabeça observamos que as amostras de nutridoras apresentaram maior consumo de O2, associado a uma maior produção de EROs e expressão elevada dos genes da via de hipóxia, enquanto forrageiras apresentaram maiores quantidades de transcritos dos genes do sistema antioxidantes e menores níveis de danos oxidativos. Para os tecidos do tórax observamos nas forrageiras uma maior capacidade de produção de ATP, acompanhada de uma elevada expressão de genes codificadores de enzimas do sistema antioxidante e menores níveis de danos oxidativos. Com relação aos tecidos abdominais, as abelhas nutridoras apresentaram maior atividade mitocondrial, enquanto as amostras de forrageiras apresentaram maior número de unidades mitocondriais, elevados níveis EROs e também uma expressão elevada dos genes do sistema antioxidante e da via de hipóxia. Assim, os dados revelaram uma clara mudança na atividade mitocondrial e nos padrões redox teciduais associados a esta transição de polietismo etário. Também notamos diferenças nestes parâmetros para cada compartimento do corpo analisado, refletindo uma demanda energética diferencial em cada tecido. A segunda parte do projeto teve como objetivo avaliar os mesmos parâmetros redox em uma situação de restrição alimentar em três situações distintas. O primeiro grupo experimental foi constituído de larvas que sofreram restrição calórica por umperíodo de 10 horas. O segundo grupo foi composto por abelhas recém emergidas que sofreram ou não tal restrição calórica no período larval. O terceiro grupo consistiu de abelhas que sofreram ou não restrição calórica no período larval, e após emergirem foram mantidas em caixas até atingirem a idade de 7 dias, quando foram submetidos novamente a uma restrição calórica. Para o primeiro grupo, as larvas, verificamos que após o período de restrição calórica os genes relacionados com a biogênese mitocondrial e o sistema antioxidante apresentaram níveis de expressão menores comparadas com larvas controle. Observamos também que larvas que sofreram restrição calórica apresentaram menor consumo de O2 e menores níveis de EROs. Para o segundo grupo, as abelhas recém emergidas, não observamos nenhuma diferença na expressão de genes mitocondriais e do sistema antioxidante entre as que sofreram ou não restrição calórica na fase larval, demostrando uma recuperação nestes parâmetros após o período de metamorfose. No terceiro grupo, as abelhas de 7 dias foram submetidas a uma nova restrição calórica para observar se indivíduos que passaram por a situação de estresse no período larval apresentariam uma resposta mais imediata a um estresse nutricional na fase adulta. Os resultados do terceiro grupo revelaram que abelhas que haviam sido expostas a uma situação prévia de restrição calórica, apresentaram uma redução dos transcritos de genes ligados a biogênese mitocondrial e do sistema antioxidante quando comparados ao grupo que sofreu restrição calórica apenas na fase adulta. Em conjunto nossos dados sugerem que a restrição calórica é capaz de diminuir o metabolismo oxidativo e que existe uma resposta aparentemente adaptativa em indivíduos adultos que passaram por essa situação previamente durante o desenvolvimento larval. Assim, esses resultados podem servir para direcionar estudos futuros sobre a relação entre restrição calórica, metabolismo oxidativo e longevidade nesses insetos sociais. / Apis mellifera workers perform different tasks according to their age (age polyethism), where young workers care for the brood and older ones become foragers. However, this a transition does not follow a fixed chronology, but is fitted to the needs of the colony, especially the nutritional conditions of both, the colony and the individual bee. In this sense, we address the question of how oxidative metabolism in the fat body of the workers, e.g., the center of the intermediary metabolism of these insects, is related to changes in the function of the workers in the colony, and how these parameters responds to a nutritional stress imposed individually in two stages, in the larval and adult phase. For evaluating mitochondrial activity and the redox status of fat body cells we used a high resolution respirometry system to measure O2 consumption, and we performed biochemical assays to measure the generation of reactive oxygen species (ROS), levels of nitric oxide, the number of mitochondrial units, and eventual oxidative damages. Furthermore, using quantitative PCR, we measured the relative expression of genes linked to mitochondrial biogenesis, to the antioxidant system, and to the hypoxia signaling pathway. In the comparison of these parameters between nurse and forager workers, we evaluated separately the three main body compartments (head, thorax and abdomen), since these are differentially related to these functions. For the head tissues, we observed that nurses showed higher O2 consumption, associated with higher ROS production and elevated expression of hypoxia pathway genes, while foragers presented higher amounts of transcripts of the antioxidant system genes and lower levels of oxidative damages. For the thorax tissues we found in the foragers a greater capacity of ATP production, accompanied by a higher expression of genes encoding enzymes of the antioxidant system and lower levels of oxidative damage. With respect to the abdominal tissues, nurse bees presented higher mitochondrial activity, while foragers had a higher number of mitochondrial units, elevated ROS levels, and also a higher expression of genes related to the antioxidant system and hypoxia pathway. Thus, these data revealed a clear change in mitochondrial activity and redox tissue patterns associated with this transition of age polyethism. We also noticed differences in these parameters for each of the analyzed body compartment, reflecting a differential energy demand in each tissue. The second part of the project aimed to evaluate the same redox parameters in a food restriction condition in three distinct situations. The first experimental group consisted of larvae that experienced caloric restriction for a 10 hour period. The second group consisted of newly emerged bees that had or not experienced such a caloric restriction in the larval period. The third group consisted of bees that had experienced or not caloric restriction during the larval period, and after emergence were kept in boxes until reaching 7 days old, when they were resubmitted to another caloricrestriction. For the first group, the larvae, we found that after the period of caloric restriction, genes related to mitochondrial biogenesis and the antioxidant system presented lower levels of expression compared to control larvae. We also observed that larvae that had experienced caloric restriction presented lower O2 consumption and lower ROS levels. For the second group, newly emerged bees, we did not observe any differences in the expression of mitochondrial genes and the antioxidant system among those individuals that had experienced or not caloric restriction in the larval phase, indicating a recovery in these parameters after the period of metamorphosis. In the third group, the 7-day-old bees had experienced a new caloric restriction to see whether individuals that had been in a stressful situation during larval period would respond more readily to nutritional stress in adulthood. The results for this group showed that bees that had been exposed to a previous caloric restriction presented a reduction in the transcript levels of genes related to mitochondrial biogenesis and the antioxidant system when compared to the group that experienced caloric restriction only in adulthood. Taken together, our data suggest that caloric restriction is able to diminish the oxidative metabolism, and that there is a seemingly adaptive response in adult individuals that had previously experienced this situation during larval development. Thus, these results can serve to direct future studies on the relationship between caloric restriction, oxidative metabolism and longevity in these social insects. Abelhas melíferas Biogênese mitocondrial Caloric restriction Consumo de oxigênio Estado redox Honey bees Mitochondrial Biogenesis Oxygen consumption Redox state, Hypoxia signaling pathway Restrição calórica Via de sinalização por hipóxia
16	Αποφρακτικός ίκτερος ως αιτία οξειδωτικού στρες στον εγκέφαλο και επίδραση αντιοξειδωτικών παραγόντων Καραγεώργος, Νικόλαος 03 August 2009 (has links) Η ηπατική εγκεφαλοπάθεια είναι ένα πολύπλοκο νευροψυχιατρικό σύνδρομο που έχει συσχετισθεί με οξείες και χρόνιες ηπατοπάθειες. Τα τελευταία χρόνια συσσωρεύονται πληροφορίες που εμπλέκουν το οξειδωτικό στρες (φορτίο) ως παράγοντα-κλειδί στην παθογένεση της ηπατικής εγκεφαλοπάθειας σε μελέτες που χρησιμοποιούν ως μετρούμενους δείκτες την υπεροξείδωση λιπιδίων και το οξειδοαναγωγικό ζεύγος της γλουταθειόνης (GSH/GSSG). Στην παρούσα μελέτη χρησιμοποιήθηκε ένα μοντέλο πειραματικού αποφρακτικού ίκτερου με απολίνωση του χοληδόχου πόρου. Αρσενικοί αρουραίοι χωρίστηκαν σε ομάδες ελέγχου, ψευδώς χειρουργημένων, και σε ομάδες απολίνωσης χοληδόχου πόρου που είτε θυσιάστηκαν την 5η ημέρα, είτε τη 10η ημέρα, ή τους χορηγήθηκαν αντιοξειδωτικοί παράγοντες (NAC, ALP, Vit-E). Στη συνέχεια, μελετήθηκε η θειολική οξειδοαναγωγική κατάσταση στον εγκέφαλο των αρουραίων, και μάλιστα ανά περιοχές (εγκεφαλικός φλοιός, στέλεχος, παρεγκεφαλίδα), καθώς και η επίδραση των επιλεγμένων αντιοξειδωτικών παραγόντων σε αυτήν. Χρησιμοποιήθηκε για πρώτη φορά μια πιο αντιπροσωπευτική εκτίμηση του οξειδωτικού στρες, καθώς ποσοτικοποιήθηκαν συγκεκριμένοι δείκτες υψηλού (GSSG, NPSSR, NPSSC, PSSR, PSSC, PSSP, υπεροξείδια λιπιδίων) και χαμηλού (GSH, CSH, PSH) οξειδωτικού στρες. Τα αποτελέσματά μας δείχνουν αύξηση των πρώτων και μείωση των τελευταίων σε όλες τις εγκεφαλικές περιοχές καταδεικνύοντας έτσι την παρουσία αυξημένου οξειδωτικού φορτίου στον αποφρακτικό ίκτερο. Το σημαντικότερο αποτέλεσμα αυτής της μελέτης είναι ότι κατέδειξε πρώιμα σημεία οξειδωτικού στρες στον εγκέφαλο ήδη από την 5η ημέρα μετά την απολίνωση του χοληδόχου πόρου. Οι μεταβολές των βιοχημικών δεικτών, και αυτό αφορά σε όλους τους δείκτες και σε όλες τις εγκεφαλικές περιοχές, αρχίζουν να φαίνονται από την 5η ημέρα και γίνονται στατιστικά σημαντικές τη 10η ημέρα από την απολίνωση του χοληδόχου πόρου. Διαπιστώσαμε επιπλέον ότι η GSH είχε περίπου διπλάσιες τιμές στον εγκεφαλικό φλοιό από ό, τι στο στέλεχος και την παρεγκεφαλίδα, και ότι στο στέλεχος παρατηρήθηκε μια δραματική αύξηση των επιπέδων των NPSSR τη 10η ημέρα μετά την απολίνωση του χοληδόχου πόρου, τα οποία όμως παρέμειναν χαμηλά στις άλλες δύο περιοχές. Καθώς είναι γνωστό πως το οξειδωτικό στρες έχει ενοχοποιηθεί στην παθογένεση διαφόρων νευροεκφυλιστικών παθήσεων στον άνθρωπο, τα ευρήματα αυτά θα μπορούσαν να συσχετισθούν με διαφορές στη φυσιολογία και τη βιοχημεία των περιοχών αυτών και ενδεχομένως να σχετίζονται με τον τρόπο που το οξειδωτικό στρες εκφράζεται στην παθοφυσιολογία και άλλων νοσολογικών καταστάσεων όπως η πλάγια αμυοτροφική σκλήρυνση, η νόσος Parkinson, και η νόσος Alzheimer. Έχει ενδιαφέρον το γεγονός ότι τα βασικά γάγγλια και οι πυρήνες του στελέχους είναι θέσεις εκλεκτικής βλάβης στην εγκεφαλοπάθεια από χολερυθρίνη στο νεογνικό ίκτερο. Στη δεύτερη πειραματική φάση, στους ικτερικούς αρουραίους χορηγήσαμε αντιοξειδωτικούς παράγοντες, που έχουν επανειλημμένα μελετηθεί τόσο in vitro όσο και σε ζωικά μοντέλα, σε μια προσπάθεια να αναστρέψουμε τις διαταραχές που είχαν παρατηρηθεί. Ένα πρώτο εύρημα ήταν η ευεργετική δράση στην υπεροξείδωση των λιπιδίων, που ποσοτικοποιήθηκε με τον υπολογισμό της MDA, στις ομάδες και των τριών αντιοξειδωτών αλλά κυρίως στις ALP και Vit-E. Και στις τρεις ομάδες που έλαβαν αντιοξειδωτικά, αντίθετα με την ομάδα απολίνωσης χοληδόχου πόρου, δεν παρατηρήθηκε εξάντληση του συνολικού κυτταρικού περιεχόμενου γλουταθειόνης. Επιπλέον, και στις τρεις ομάδες αντιοξειδωτικών δεν παρατηρήθηκε αύξηση των NPSSR στο εγκεφαλικό στέλεχος, γεγονός που υποδηλώνει ότι η συσσώρευση των μη-πρωτεϊνικών δισουλφιδίων στο στέλεχος εμποδίστηκε από τους αντιοξειδωτικούς παράγοντες. Η ανισορροπία των πρωτεϊνικών θειολών, όπως αυτή φάνηκε από τη μείωση της PSH και την αύξηση του PSSP, αναστράφηκε σημαντικά μόνο στην ομάδα NAC στην οποία η PSH αυξήθηκε στα φυσιολογικά επίπεδα. Εν συντομία, η παρούσα μελέτη είναι η πρώτη που καταδεικνύει με σαφήνεια το οξειδωτικό στρες στον εγκέφαλο στο μοντέλο του αποφρακτικού ίκτερου και μάλιστα αρκετά πρώιμα. Χρησιμοποιεί μια συστοιχία βιοχημικών δεικτών που περιγράφουν την θειολική αναγωγική κατάσταση και την υπεροξείδωση των λιπιδίων και μελετά τις ευεργετικές επιδράσεις γνωστών αντιοξειδωτικών παραγόντων στον πειραματικό αποφρακτικό ίκτερο. Τα αποτελέσματά της θα μπορούσαν να προσφέρουν κάποια βοήθεια στην κατανόηση ορισμένων μηχανισμών της ηπατικής εγκεφαλοπάθειας στους ανθρώπους. Μελλοντικές έρευνες θα απαντήσουν ερωτήματα σχετικά με τα γενεσιουργά αίτια του οξειδωτικού στρες, την ίδια την παρουσία των ελευθέρων ριζών και την παθοφυσιολογία του φαινομένου. / Hepatic encephalopathy is a complex neuropsychiatric syndrome that has been associated with acute and chronic liver diseases. Accumulated evidence over the last several years has implicated oxidative stress a key factor in the pathogenesis of hepatic encephalopathy. These studies utilize measurements of lipid peroxidation products and glutathione (GSH) and its oxidized disulfide GSSG. A model of experimental obstructive jaundice after ligation of the biliary duct has been used in the present study. Male Wistar rats were divided into control, sham operated and bile duct ligated groups that were sacrificed either on the 5th or the 10th day, or they have been treated with antioxidant agents (NAC, ALP, Vit-E). Subsequently, the thiol redox state of various areas (cortex, midbrain and cerebellum) of the rat brain and the effect of selected antioxidants were studied. For the first time specific markers of high oxidative stress (GSSG, NPSSR, NPSSC, PSSR, PSSC, PSSP, lipid peroxides) and low oxidative stress (GSH, CSH, PSH) were quantified providing a more detailed assessment of the phenomenon. Our results show increase in the first and decrease in the latter group of markers in all studied brain areas, therefore demonstrating high oxidative stress in the obstructive jaundice. The major impact of the present study is the demonstration of early signs of oxidative stress in the brain. Using this battery of biochemical markers, deviations from control and sham animals occurred as early as 5 days following bile duct ligation; by the 10th day the majority of these changes became statistically significant. It was also observed that GSH values in cerebral cortex were twice as high as those in midbrain and cerebellum and a dramatic increase in the levels of NPSSR on the 10th day after bile duct ligation in midbrain that was not observed in the other brain areas. These findings could be attributed to specificities of metabolic or biochemical status of neurons and astrocytes and alterations of blood-brain barrier permeability in different brain areas and probably should be taken into account in further studies, since, as we know, oxidative stress has been implicated in the pathogenesis of many human diseases like Parkinson’s , Alzheimer’s and Amyotrophic Lateral Sclerosis (ALS). It is of interest that basal ganglia and brainstem nuclei are, as well, the sites of selective damage in bilirubin encephalopathy in jaundiced neonates. Jaundiced rats were treated with agents that have frequently been used in vitro and in vivo for their antioxidant effects, in an effort to reverse the observed alterations in redox state. In the treated groups, there was no decrease in the total cell glutathione content unlike the bile duct ligated rats. There was also no significant difference in the levels of lipid peroxidation as compared with control and sham groups. The imbalance of protein thiols demonstrated by the decrease of PSH and the increase of PSSP was considerably reversed only in the NAC group. In all treated groups, no NPSSR increase was found suggesting that the antioxidant agents suppressed the accumulation of non-protein disulfides in the midbrain. In brief, this experimental study demonstrates the oxidative profile of the brain associated with obstructive jaundice at an early and later stage. A battery of biochemical markers that define the thiol redox state is utilized and the beneficial effects of known antioxidants are examined. The evidence presented supports the concept that oxidative stress is neither a uniform matter affecting brain in a general way nor that any antioxidant agent could prevent damage by enhancing equally well different defence system. It is also likely that oxidative stress is one of the important mechanisms of jaundice-induced encephalopathy. Further studies could provide with more evidence on the pathogenetic mechanisms and generative causes of the oxidative stress in obstructive jaundice. Αποφρακτικός ίκτερος Οξειδωτικό στρες 616.83 Brain oxidative stress Lipid peroxidation Thiol redox state Bile duct ligation
17	Characterization of Cys-34 in serum albumin Tong, Grace C. 16 October 2003 (has links) No description available. acrylamide cooperative binding cys-34 fatty acid binding nitric oxide nitrosation of cysteine nitrosation of tryptophan redox state of thiol pKa of protein thiol serum albumin S-nitrosothiol thiol reactivity
18	Etude des équilibres chimiques dans le contexte d'accrétion et de différenciation des planètes telluriques / Chemical equilibria during the accretion and differentiation of the terrestrial planets Fontaine, Asmaa 23 May 2014 (has links) Les abondances en éléments sidérophiles du manteau terrestre indiquent une ségrégation du noyau dans un océan magmatique profond. Il est néanmoins difficile de contraindre les conditions d’oxydation prévalant lors de l’accrétion planétaire, en se basant sur les traceurs géochimiques, en raison du nombre important de paramètres qui affectent leurs partages entre métal et silicate. D’autre part, l’état d’oxydation des planètes peut évoluer au cours de l’accrétion. Par conséquent, la nature des matériaux accrétés lors de la formation des planètes reste incertaine. Afin d’apporter de nouveaux éléments de réponses à cette problématique, nous avons modélisé les équilibres chimiques ayant lieu dans la Terre primitive. Ces équilibres peuvent évoluer (i) en augmentant les conditions de pression et de température de la ségrégation du noyau lors de la croissance de la planète, (ii) en raison de la cristallisation de l’océan magmatique et (iii) à travers l’accrétion de matériaux hétérogènes de compositions et états redox différents. Nous avons exploré le rôle potentiel de l’érosion collisionnelle dans le contexte de l’accrétion de la Terre à partir de chondrites à enstatite. Pour cela, nous avons déterminé expérimentalement les compositions chimiques des liquides pseudo-eutectiques en fonction de la pression jusqu’à 25 GPa. Nous avons montré que ces premiers liquides sont très enrichis en SiO2 (jusqu’à 75 wt% SiO2) et en éléments alcalins (Na et K). Par conséquent, l’érosion collisionnelle de proto-croutes de planétésimaux formés de chondrites EH peut de manière efficace augmenter le rapport final Mg/Si du manteau terrestre et réduire ses concentrations en éléments alcalins volatils. Ce mécanisme peut donc concilier les différences compositionnelles entre la Terre et les chondrites à enstatite. Nous avons également déterminé expérimentalement le partage du soufre entre métal riche en fer et silicate. La concentration en soufre du manteau terrestre peut être expliquée par un équilibre entre manteau et noyau dans un océan magmatique profond. L’hypothèse de l’ajout de soufre dans un vernis tardif (Rose-Weston et al., 2009) n’est pas à exclure, mais il n’est pas indispensable pour atteindre la concentration en soufre du manteau. Ces résultats sont en accord avec les compositions isotopiques non chondritiques du soufre dans le manteau (Labidi et al., 2013). Le partage des éléments légers (S, Si, O) entre manteau et noyau a été modélisé à hautes pressions et températures en prenant compte de leurs interactions chimiques mutuelles et celles avec le carbone. En considérant 2 wt% S et jusqu’à 1.2 wt% C (comme il est suggéré par les études cosmochimiques), nous trouvons une solubilité de l’O comprise entre 1 et 2.4 wt%. Cette insertion de l’O dans le noyau n’est pas suffisante pour permettre à la Terre d’être à la fois accrétée de matériaux météoritiques oxydés et de posséder un noyau métallique d’une masse équivalente au tiers de la planète ainsi que 8 wt% FeO dans le manteau. Des conditions relativement réduites lors de la ségrégation du noyau sont également requises pour augmenter le taux de Si dans le noyau et expliquer le rapport Mg/Si super-chondritique de la Terre silicatée (Allègre et al., 1995; O’Neill et al. 1998). Ainsi, la Terre s’est plus probablement accrétée à partir de matériaux réduits comme les chondrites à enstatites, conduisant à un noyau constitué de 2 wt% S, 0 à 1.2 wt% C, 1 wt% O et 5.5 à 7 wt% Si. Nous avons également exploré le comportement du Fe lors de la cristallisation de la pérovskite magnésienne (le minéral le plus abondant du manteau terrestre) et son rôle sur l’état redox du manteau terrestre lors du refroidissement de l’océan magmatique. Nous avons montré que sa cristallisation induit une diminution du FeO dans le manteau solide, lors d’un équilibre avec un alliage de fer liquide à une fO2 de IW-2 en raison du caractère incompatible du Fe dans la pérovskite. (...) / Abundances of siderophile elements in the mantle indicate that the Earth’s core segregated in a deep magma ocean. Yet, it is unfortunately difficult to constrain the oxidation conditions prevailing during planetary accretion based on geochemical tracers due to the number of parameters playing a role in metalsilicate partitioning. In addition, the oxidation state of terrestrial planets can evolve during accretion. The nature of the accreted material during the formation of the terrestrial planets remains then still uncertain. Our strategy to improve our knowledge in this domain is to model the chemical equilibria taking place in the primitive Earth. The equilibria can evolve (i) as P-T conditions of core-mantle segregation increase with the size of the planet, (ii) due to crystallization of the magma ocean and (iii) with accretion of heterogeneous material of different composition and oxidation state. We explored the potential role of collisional erosion in the context of Earth’s accretion from Enstatite Chondrites. For this, we refined experimentally the chemical composition of pseudo-eutectic melts as a function of pressure up to 25 GPa. We show that the first melts are highly enriched in SiO2 (up to 75 wt% SiO2) and alkali elements (Na and K). Therefore, collisional erosion of proto-crusts on EH-planetesimals can efficiently increase their final Mg/Si ratio and decrease their alkali elements budget. It can help to reconcile compositional differences between bulk silicate Earth and Enstatite Chondrites. We performed new experiments on metal-silicate partitioning of sulphur. We show that the present-day sulphur concentration of the Earth’s mantle can be explained by core-mantle equilibration in a deep magma ocean. S-addition in a late veneer (Rose-Weston et al., 2009) cannot be excluded; however, it is not required in order to reach the S-mantel abundance. Our results are consistent with the non-chondritic S-isotopic nature of the mantle (Labidi et al., 2013). We modeled the core-mantle partitioning of the light elements (S, Si, O) at high pressures and temperatures, by taking into account of their mutual chemical interactions and that with C. With 2 wt% S in the core and a C concentration ranging 0 to 1.2 wt% (as evidenced with cosmochemical studies), we found the O solubility from 1 to 2.4 wt%. This O incorporation to the core is insufficient to both allow an Earth accretion from an oxidized meteoritic material and result in a planet composed of a core with a mass equivalent to the third of its mass and a mantle with 8 wt% FeO content. Reduced conditions during coremantle segregation are also required to enhance the Si content in the core, possibly up to 5 wt% Si, to explain the super chondritic Mg/Si of the bulk silicated Earth (Allègre et al., 1995; O’Neill et al. 1998). Altogether, we find that the Earth was most likely accreted from a reduced material, such as enstatite chondrites, leading to a core composed of 2 wt% S, 0 to 1.1 wt% C, 1 wt% O and 5.5 to 7 wt% Si. We investigated the role of Mg-perovskite (the most abundant mineral of the mantle) crystallization on the oxidation state of Earth’s mantle during cooling of the magma ocean. We show that its crystallization induces a decrease of FeO content of the solid mantle as Fe is incompatible in perovskite, when it is in equilibrium with a liquid Fe-alloy at an fO2 of IW-2. At these conditions, the Fe3+ insertion is also low and constant (Fe3+/ Fetot of 21 ±4 %). Hence, the Mg-Pv crystallization cannot be responsible for a substantial increase of the Earth’s mantle oxygen fugacity during core segregation. (...) Terre primitive Chondrites à Enstatite Fugacité d’oxygène Ségrégation du noyau Eléments légers Erosion collisionnelle Cristallisation de l’océan magmatique Pérovskite Early Earth Enstatite Chondrites Redox state Core segregation Light elements Collisional erosion Magma ocean crystallization Perovskite
19	Interactions fluide-roche, conditions physico-chimiques et transferts de matière dans des zones de failles en milieux sédimentaires : exemple de failles chevauchantes pyrénéennes / Fluid-rock interactions, physico-chemical conditions and mass transfers in sedimentary environnments fault zones : Pyrenean thrust faults exemple Trincal, Vincent 02 June 2015 (has links) Ce travail a pour but d’étudier les paramètres physico-chimiques qui contrôlent les transferts de matière ainsi que la formation et l’évolution des argiles dans des failles chevauchantes en environnement sédimentaire. Deux failles chevauchantes pyrénéennes de faible grade métamorphique ont été étudiées : la faille de Millaris (cf. Mont Perdu) et le chevauchement du Pic-de-Port-Vieux (cf. Gavarnie). Dans la faille de Millaris, la déformation s’accompagne principalement d’une dissolution de la calcite matricielle par pression-solution induisant un changement de volume de la roche de 20 à 40%. Le chevauchement du Pic-de-Port-Vieux enregistre des modifications importantes au coeur de la faille mais aussi dans la zone d’endommagement. Dans les calcaires du mur du chevauchement, une mylonitisation est associée à une dissolution partielle des dolomites en présence de fluides ne dépassant pas 320-340°C. Dans les pélites du toit du chevauchement, la dissolution de l’hématite par un fluide réducteur entraine un changement de l’état redox de la roche (confirmé par spectroscopie Mössbauer) et la précipitation de chlorite dans des veines syncinématiques. Des chlorites à zonations chimiques oscillatoires présentes dans certaines veines révèlent, en combinant cartographie chimique à la microsonde, mesures de l’état redox par μXANES et thermométrie, des variations cycliques de température d’au moins 50°C au cours de la cristallisation. Un processus de valves sismiques pourrait donc être associé à la mise en place du chevauchement du Pic de Port Vieux. / This work aims to study the physical and chemical parameters that control the mass-transfer and the clays formation and evolution in sedimentary environment thrust faults. Two Pyrenean thrust faults in low metamorphic grade were studied: the Millaris fault (related to Mont Perdu) and the Pic-de-Port-Vieux thrust (related to Gavarnie). In the Millaris fault, the deformation is accompanied mainly by dissolution of the matrix calcite by pressure-solution which induces a volume change of the rock from 20 to 40%. The Pic-de-Port-Vieux thrust records significant changes in the fault core-zone, but in the damaged zone also. In the footwall limestone, a mylonitisation is associated with a partial dissolution of dolomite in the presence of not exceeding 320-340°C fluids. In the hanging-wall pelites, the hematite dissolution by a reducing fluid causes a redox state change of the rock (confirmed by Mössbauer spectroscopy) and chlorite precipitation in synkinematic veins. Oscillatory zoning pattern chlorites located in some shearing veins revealed, by combining chemical mapping microprobe, redox state measurements with μ-XANES and thermometry, cyclic temperature variations of at least 50°C during the crystallization. A seismic valves process could be associated to Pic-de-Port-Vieux thrusting. Interaction fluide-roche Transfert de matière Phyllosilicates Etat Redox Chlorite zonée Chevauchement Pyrénées Réaction minéralogique Fluid-rock interaction Mass transfer Phyllosilicates Redox state oxidation Zoned chlorite Thrust Pyrenees Mineralogical reaction. 552

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