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Associação de polimorfismos em um único nucleotídeo nos genes GPX4,CYBB, CYBA, CAT e SLC2A2 e a susceptibilidade à doença renal crônica em coortes brasileira e francesas de portadores de diabetes mellitus tipo 1 / Association of single nucleotide polymorphisms in the genes GPX4, CYBB, CYBA, CAT e SLC2A2 and the susceptibility to chronic kidney disease in Brazilian and French cohorts of type 1 diabetes mellitus patientsPatente, Thiago Andrade 18 July 2014 (has links)
A nefropatia diabética (ND) é uma das principais causas de nefropatia crônica, o que torna o diabetes mellitus (DM) responsável por 44% da prevalência de doença renal crônica (DRC) no mundo. O papel do estresse oxidativo na patogênese da ND está bem estabelecido e genes pertencentes a vias pró- e antioxidantes são possíveis candidatos a conferirem susceptibilidade genética a essa e a outras complicações crônicas. Além do estresse oxidativo, o transporte intracelular de glicose, mediado por transportadores específicos, também parece exercer influência sobre a ND e outras complicações. O objetivo deste trabalho foi avaliar a associação entre ND e alguns polimorfismos de um único nucleotídeo (SNPs) em genes que codificam proteínas transportadoras de glicose (GLUT2 [SLC2A2]), proteínas pró-oxidantes (p22phox [CYBA] e NOX-2 [CYBB]) e proteínas antioxidantes (glutationa peroxidase-4 [GPX4] e catalase [CAT]) em uma coorte brasileira (n=453; 45,8% de pacientes com ND) e três coortes francesas (SURGENE [n=340; 17,7% de pacientes com ND na fase basal], GENEDIAB [n=313; 66,7% de pacientes com ND] e GENESIS [n=636; 49,7% de pacientes com ND]) de pacientes portadores de DM tipo 1. Os SNPs foram genotipados com o uso da técnica de reação em cadeia da polimerase (PCR) em tempo real e os resultados expressos em odds ratio (OR) ou hazard ratio (HR), com seus respectivos intervalos de confiança (IC), determinados em modelos ajustados de regressão logística politômica ou regressão de risco proporcional de Cox, respectivamente. A razão albumina/creatinina urinária (ACR) ou a taxa de excreção urinária de albumina (EUA) foram utilizadas para definir os estágios de ND e os pacientes foram classificados de acordo com a presença ou ausência de ND incipiente (ACR 30 - 300 mg/g de creatinina ou EUA 20 - 200 ?g/min ou 20 - 200 mg/L) e creatinina plasmática <1,7 mg/dL), ND estabilizada (ACR >300 mg/g de creatinina ou EUA > 200 ug/min ou > 200 mg/L e creatinina plasmática < 1,7 mg/dL ) ou ND avançada (ACR > 300 mg/g de creatinina ou EUA > 200 ug/min ou > 200 mg/L e creatinina plasmática > 1,7 mg/dL ou qualquer terapia de reposição renal) e também foram avaliadas associações dos SNPs com a taxa de filtração glomerular estimada (TFGe). O alelo raro A do SNP rs6610650 no gene CYBB foi associado com valores baixos de TFGe em mulheres na coorte brasileira e com a prevalência de ND estabilizada/avançada em mulheres da coorte francesa (OR 1,75; IC 95% 1,11 - 2,78; p=0,016). O alelo raro T do SNP rs713041 no gene GPX4 foi inversamente associado com a prevalência de ND estabilizada/avançada em homens na coorte brasileira (OR 0,30, IC95% 0,13 - 0,68, p=0,004) e com valores elevados de TFGe em homens na coorte francesa. O alelo raro A do SNP rs7947841 no gene CAT foi associado com a prevalência de ND incipiente (OR 2,79; IC95% 1,21 - 6,24; p=0,01) e ND estabilizada/avançada (OR 5,72; IC95% 1,62 - 22,03; p=0,007), bem como com a incidência de eventos renais, definidos como novos casos de microalbuminúria ou progressão para um estágio mais grave de ND durante o seguimento de estudo, na coorte SURGENE (HR 1,82; IC95% 1,13 - 2,81; p=0,01). O mesmo alelo de risco associou-se com a prevalência de ND incipiente (OR 3,13; IC95% 1,42 - 7,24; p=0,004) e com a incidência de insuficiência renal crônica terminal (IRCT) na coorte GENEDIAB (HR 2,11; IC95% 1,23 - 3,60; p=0,008) e com a prevalência de ND incipiente (OR 2,16; IC95% 1,14 - 4,10, p=0,02) e ND estabilizada/avançada (OR 2,71; IC95% 1,38 - 5,42; p=0,004) na coorte brasileira. O alelo raro T do SNP rs9932581 no gene CYBA foi inversamente associado com a prevalência de ND estabilizada/avançada (OR 0,60; IC95% 0,46 - 0,78; p=0,0001) e com valores mais baixos de TFGe nos pacientes de descendência europeia da coorte GENESIS/GENEDIAB. Este mesmo alelo foi associado com a incidência de eventos renais e de IRCT nas coortes SURGENE (HR 0,63; IC95% 0,46 - 0,86; p=0,003) e GENESIS/GENEDIAB (HR 0,51; IC95% 0,31 - 0,78; p=0,002), respectivamente. Entretanto estes resultados não foram replicados na coorte brasileira. O alelo raro T do SNP rs11924032 no gene SLC2A2 foi inversamente associado com a perda da TFGe ao logo do tempo (0,02%/ano vs 2,18%/ano para os pacientes portadores do genótipo GG; p=0,005), na coorte SURGENE. Este mesmo alelo foi inversamente associado com a incidência de IRCT nas coortes GENESIS/GENEDIAB (HR 0,53; IC95% 0,29 - 0,89; p=0,01). Os resultados observados para o gene SLC2A2 não forneceram fortes indícios para afirmarmos que este gene exerça um papel relevante no desenvolvimento da ND nos pacientes com DM tipo 1 nas coortes francesas estudadas. Em contrapartida, os SNPs nos genes que codificam as proteínas pró-oxidantes CYBA e CYBB e as proteínas antioxidantes GPX-4 e CAT foram capazes de modular o risco para doença renal em pacientes portadores de DM tipo 1, sendo que os SNPs presentes nos genes CYBB, GPX4 e CAT tiveram seus resultados replicados em coortes independentes, o que corrobora a importância destes genes e, consequentemente, do estresse oxidativo, na patogênese da ND / Diabetic nephropathy (DN) is a major cause of chronic nephropathy, with diabetes mellitus (DM) accounting for 44% of the prevalence of chronic kidney disease (CKD) in the world. The role of oxidative stress in the pathogenesis of DN is well established and genes belonging to pro- and antioxidant pathways are possible candidates to confer genetic susceptibility to this and other chronic complications. Besides oxidative stress, intracellular glucose transport mediated by specific transporters, also appears to influence DN and other complications. The aim of this study was to evaluate the association between DN and some single nucleotide polymorphisms (SNPs) present in genes encoding glucose transport proteins (GLUT2 [SLC2A2]), pro- (p22phox [CYBA] and NOX-2 [CYBB]) and antioxidants (glutathione peroxidase-4 [GPX4] and catalase [CAT]) proteins, in a Brazilian cohort [n= 453; 45.8% f patients with DN], and three French cohorts (SURGENE [n=340; 17.7% of patients with DN at baseline], GENEDIAB [n=313; 66.7% of patients with DN], and GENESIS [n=636; 49.7% of patients with DN]) of patients with type 1 DM. The SNPs were genotyped using the technique of real time polymerase chain reaction (PCR) and results expressed as odds ratio (OR) and hazard ratio (HR), with their respectively 95% confidence intervals (CI), determined by adjusted models of polytomic logistic regression and Cox proportional hazard regression, respectively. The albumin/creatinine ratio (ACR) or the urinary albumin excretion (UAE) rate were used to define the DN stages and the patients were classified according to the presence or absence of incipient DN (ACR 30 - 300 mg/g of creatinine or UAE 20 - 200 ug/min or 20 - 200 mg/L) and plasmatic creatinine < 1,7 mg/dL), established DN (ACR > 300 mg/g of creatinine or EUA > 200 ug/min or > 200 mg/L and plasmatic creatinine <1,7 mg/dL) or advanced DN (ACR >300 mg/g of creatinine or UAE > 200 ug/min or > 200 mg/L and plasmatic creatinine > 1,7 mg/dL or any renal replacement therapy). Associations for the estimated glomerular filtration rate (eGFR) were also evaluated. The rare allele A of the SNP rs6610650 in CYBB gene was associated with low values of eGFR in women in the Brazilian cohort and with the prevalence of established/advanced DN in women in the French cohort (OR 1.75, 95%CI 1.11 - 2.78, p=0.016). The rare allele T of the SNP rs713041 in GPX4 gene was inversely associated with the prevalence of established/advanced DN in men in the Brazilian cohort (OR 0.30, 95%CI 0.13 - 0.68, p=0.004) and with higher values of eGFR in men in the French cohort. The rare allele A of the SNP rs7947841 in CAT gene was associated with the prevalence of incipient DN (OR 2.79, 95%CI 1.21 - 6.24, p=0.01) and established/advanced DN (OR 5.72; 95%CI 1.62 - 22.03, p=0.007) as well as the incidence of renal events, defined as new cases of microalbuminuria or progression to a more severe stage during the follow-up study, in SURGENE cohort (HR 1.82, 95%CI 1.13 - 2.81, p=0.01). The same risk allele was associated with the prevalence of incipient DN (OR 3.13, 95%CI 1.42 - 7.24, p=0.004), the incidence of end-stage renal disease (ESRD) in the cohort GENEDIAB (HR 2.11, 95%CI 1.23 - 3.60, p=0.008) and with the prevalence of incipient DN (OR 2.16, 95%CI 1.14 - 4.10, p=0.02) and established/advanced DN (OR 2.71, 95%CI 1.38 - 5.42, p=0.004) in the Brazilian cohort. The rare T allele of the SNP rs9932581 in CYBA gene was inversely associated with the prevalence of established/advanced DN (OR: 0.60, 95%CI: 0.46 - .78, p=0.0001) and associated with lower values of eGFR in patients of GENESIS/GENEDIAB cohort. The same allele was inversely associated with the incidence of renal events and ESRD in SURGENE (HR 0.63, 95%CI 0.46 - 0.86, p=0.003) and GENESIS/GENEDIAB (HR 0.51, 95%CI 0.31 - 0.78, p=0.002) cohorts. However, these results were not replicated in the Brazilian cohort. The rare T allele of the SNP rs11924032 in SLC2A2 gene was inversely associated with the loss of eGFR during the follow-up (0.02%/year vs. 2.18%/year for patients with the GG genotype, p=0.005) in the SURGENE cohort. The same allele was inversely associated with the incidence of ESRD in the GENESIS/GENEDIAB cohorts (HR 0.53, 95%CI 0.29 - 0.89, p=0.01). The results observed for the SLC2A2 gene, in this study, did not provide strong evidence to state that this gene exerts a relevant role in the development of DN in patients with type 1 DM in the studied cohorts. However, SNPs in genes encoding the pro-oxidant proteins CYBA and CYBB, and the antioxidants proteins GPX-4 and CAT were able to modulate the risk of renal disease in patients with type 1 DM. The studied SNPs in CYBB, GPX4 and CAT genes had their results replicated in independent cohorts, which confirms the importance of these genes and, hence, of the oxidative stress in the pathogenesis of DN
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Efeito da proteína dissulfeto isomerase na ativação do receptor do fator de crescimento epidermal (EGFR) durante o desenvolvimento da hipertensão arterial. Papel da Nox1 NADPH oxidase. / The effect of protein disulfide isomerase in the activation of the epidermal growth factor receptor (EGFR) during arterial hypertension. Role of Nox-1 NADPH oxidase.Costa, Edilene de Souza 29 February 2016 (has links)
Estudos caracterizaram o envolvimento da PDI na modulação da geração de EROs pela Nox1 como moduladores da migração de células do músculo liso vascular (VSMC) mediados por fatores de crescimento derivados de plaqueta (PDGF). Outros estudos vêm demonstrando o envolvimento do fator de crescimento epidermal (EGFR) no remodelamento vascular, após a transativação via Angiotensina II. Entretanto o papel da PDI na ativação do EGFR via Nox1 na hipertensão arterial ainda permanece desconhecido. Objetivo foi caracterizar o papel da PDI na expressão de Nox1 dependente do EGFR durante o desenvolvimento da hipertensão arterial. Resultados demonstram um aumento da expressão de HB-EGF e ativação de ERK 1/2 na aorta de animais SHR com 8 semanas e 12 semanas de idade, e no plasma de animais SHR com 12 semanas. Ainda, a OvxPDI acarretou em um aumento na expressão gênica de Nox-1 tanto na OVXPDI quanto na forma OvxPDIMUT. Resultados mostram um novo papel da PDI na expressão gênica de Nox-1 via EGFR e a participação desta tiol oxido redutase na gênese da hipertensão arterial. / Studies characterizing the involvement of PDI in the modulation of ROS by Nox1 as modulators of cell migration of vascular smooth muscle (VSMC) mediated by growth factors derived from platelets (PDGF). Other studies have demonstrated the involvement of the epidermal growth factor receptor (EGFR) on vascular remodeling after transactivation via Angiotensin II. However the role of PDI in the activation of EGFR via Nox1 in hypertension remains unknown. Objective was to characterize the role of PDI in Nox1 dependent EGFR expression during the development of hypertension. Results show an increase of HB-EGF expression and ERK 1/2 activation in the aortic SHR at 8 weeks and 12 weeks of age, and plasma SHR at 12 weeks. Still, the OvxPDI resulted in an increase in gene expression of Nox-1 both in OVXPDI and in OvxPDIMUT way. Results show a new role of PDI in gene expression of Nox-1 via EGFR and the participation of this thiol reductase oxide in the pathogenesis of hypertension.
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Efeitos do α-tocoferol nas vias de sinalização associadas ao \"Burst\" oxidativo de neutrófilos humanos / Effects of α-tocopherol on signaling pathways associated with human neutrophil oxidative burstChan, Sandra Sueli 04 October 2000 (has links)
Neste estudo foi verificado os efeito do α-tocoferol (AT) nas vias de sinalização celular, dependentes de proteína quinase C (PKC) e de tirosinas quinases (TK), associadas ao \"burst\" oxidativo de neutrófilos humanos. Foram realizados também estudos comparativos com o inibidor da PKC, estaurosporina, com o inibidor de tirosinas quinases, genisteína e, com o análogo solúvel da vitamina E, Trolox. Foi feita a incorporação de AT in vitro às células, e então, estas foram estimuladas ou não com acetato de forbol miristato (PMA) ou com zymosan opsonizado (Zy). AT (40 µM) inibiu a produção de espécies reativas de oxigênio (ERO) pelos neutróflos estimulados com PMA ou Zy. Estaurosporina (10 nM), genisteína (100 µM) e Trolox (40 µM) também tiveram efeitos inibitórios. A atividade da PKC foi inibida pelo AT e pela estaurosporina, entretanto, a atividade da enzima não foi afetada pela genisteína e pelo Trolox. PMA e Zy promoveram um aumento da fosforilação em resíduos de tirosina de proteínas de neutrófilos. AT e estaurosporina provocaram um aumento adicional na fosforilação PMA-dependente, enquanto a genisteína causou uma diminiução e, Trolox não produziu nenhum efeito. Por outro lado, os quatro compostos foram inibitórios na fosforilação Zy-dependente. A atividade de tirosina fosfatases (PTPs) foi medida em neutrófilos estimulados e não-estimulados. PMA e Zy causaram uma diminuição na atividade de PTPs. A pré-incubação com AT e Trolox causou uma reversão destes efeitos inibitórios. O inibidor de serina/treonina fosfatases, caliculina A, também foi utilizado. Nós mostramos que este composto foi capaz de reverter os efeitos inibitórios do AT na produção de ERO e na atividade de PKC dos neutrófilos. Os resultados deste trabalho mostram que AT modulam ambas as via de sinalização, PKC e TK-dependentes, associadas com o \"burst\" oxidativo de neutrófilos humanos e, que esta modulação pode ser devido a ativação de fosfatases pelo AT. / The effects of α-tocopherol succinate (TS) on the signaling pathways, dependent of protein kinase C (PKC) and tirosine kinases (TK), associated with the oxidative burst of human neutrophils were analysed. Comparative studies with the PKC inhibitor, staurosporine, the TK inhibitor, genistein and the soluble analogous of vitamin E, Trolox were also performed. TS was incorporated into neutrophils and cells were then, stimulated or not with phorbol myristate acetate (PMA) or with opsonized zymosan (OZ). TS (40 µmol/l) inhibited the production of reactive oxygen species (ROS) by PMA or OZ-stimulated neutrophils. Staurosporine (10 nmol/l), genistein (100 µmol/l) and Trolox (40 µmol/l) were also inhibitory. PKC activity was inhibited by TS and staurosporine, however, the enzyme activity was not affected by genistein and Trolox. PMA and OZ promoted tyrosine phosphorylation in neutrophil proteins. TS and staurosporine caused a further increase of tyrosine phosphorylation of proteins in PMA-stimulated neutrophils, whereas, genistein diminished the levels of phosphorylation, and Trolox did not alter them. On the other hand, the four compounds decreased the tyrosine phosphorylated proteins in OZ-stimulated neutrophils. Protein tyrosine phosphatases (PTP) activity was measured in both resting and stimulated cells. PMA and OZ-stimulated neutrophils showed a decrease on PTP activity. Pre-incubation with TS or with Trolox caused partial recovery of the basal activity of stimulated neutrophils. The serine/threonine phosphatase inhibitor, calyculin A, was also utilized, and we showed that this compound was capable of reversing the inhibitory effects of TS on ROS production and PKC activity by neutrophils. These results show that TS modulates both PKC- and TK-dependent signaling pathways associated with the oxidative burst in human neutrophils, and this modulation could be due the activation of phosphatases by TS.
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Impact of proteasomal immune adaptation on the early immune response to viral infectionWarnatsch, Annika 11 July 2013 (has links)
Im Kampf gegen eine Virusinfektion spielen CD8+ T Zellen des adaptiven Immunsystems eine besondere Rolle. Sie patroullieren im Körper und entdecken spezifische Virusepitope, welche mittels MHC Klasse I Molekülen auf der Oberfläche infizierter Zellen präsentiert werden. Wird eine virus-infizierte Zelle erkannt, kann diese schnell und effizient eliminiert. Für die Generierung viraler Peptide, welche auf MHC Klasse I Komplexe geladen werden, ist das Ubiquitin-Proteasom-System von essentieller Bedeutung. Kürzlich wurden weitere Funktionen des Immunoproteasoms aufgedeckt wie zum Beispiel der Schutz gegen oxidativen Stress. Innerhalb der vorliegenden Arbeit konnte die Fähigkeit des Immunoproteasoms gegen eine Akkumulation oxidativ geschädigter Proteine zu schützen mit der Generierung von MHC Klasse I Liganden kombiniert und neu interpretiert werden. Es konnte gezeigt werden, dass während einer Virusinfektion in Nicht-Immunzellen die Produktion reaktiver Sauerstoffspezies durch die alternative NADPH Oxidase Nox4 eine bedeutende Rolle spielt. Die Aktivierung von Nox4 resultiert in der Akkumulation oxidativ geschädigter Proteine. Innerhalb von zwei Stunden nach dem Eintreten von Viruspartikeln in die Zellen wurden strukturelle Virusproteine oxidiert und anschließend ubiquityliert. Die gleichzeitige, virus-induzierte Expression von Immunoproteasomen führte zu einem schnellen und effizienten Abbau ubiquitylierter Virusantigene. Infolgedessen konnten immundominante Virusepitope vermehrt freigesetzt werden. Folglich wurde ein soweit unbekannter Mechanismus gefunden, welcher Substrate für das Proteasom zur Generierung von MHC Klasse I Liganden bereitstellt. Zusammenfassend konnte innerhalb dieser Arbeit gezeigt werden, dass das Immunoproteasom den Schutz vor oxidativen Stress mit der Generierung antigener Peptide verbindet, wodurch eine effektive adaptive Immunantwort etabliert werden kann. / An efficient immune control of virus infection is predominantly mediated by CD8+ T cells which patrol through the body and eliminate infected cells. Infected cells are recognized when they present viral antigenic peptides on their surface via MHC class I molecules. To make antigenic peptides available for loading on MHC class I complexes, the ubiquitin proteasome system plays a crucial role. Moreover, the induction of the i-proteasome is known to support the generation of MHC class I ligands. Recently, new functions of the i-proteasome have been discovered. Evidence is increasing that the i-proteasome is involved in the protection of cells against oxidative stress. Within this thesis the characteristic of the i-proteasome to protect cells against the accumulation of oxidant-damaged proteins could be linked to its role in improving the generation of MHC class I ligands. It could be demonstrated that during a virus infection in non-immune cells the production of reactive oxygen species by the alternative NADPH oxidase Nox4 is of critical importance resulting in the accumulation of potentially toxic oxidant-damaged proteins. Indeed, within two hours of infection structural virus proteins were oxidized and subsequently poly-ubiquitylated. The concomitant formation of i-proteasomes led to a rapid and efficient degradation of ubiquitylated virus antigens thereby improving the liberation of immunodominant viral epitopes. In conclusion, a so far unknown mechanism to fuel proteasomal substrates into the MHC class I antigen presentation pathway has been revealed. A new protein pool consisting of exogenously delivered viral proteins provides proteasomal substrates in the very early phase of a virus infection. Within the scope of this thesis the i-proteasome has been shown to link the protection against oxidative stress, initiated directly by pathogen recognition, with the generation of antigenic peptides. Together, an effective adaptive immune response is triggered.
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Estudo de um modelo experimental para o desenvolvimento de enfisema pulmonar induzido por elastase e fumo em camundongos / An experimental model of elastase and cigarette smoke-induced emphysema in miceRodrigues, Rubia 26 June 2015 (has links)
Os modelos experimentais têm sido utilizados para o estudo dos mecanismos fisiopatológicos envolvidos no desenvolvimento da Doença Pulmonar Obstrutiva Crônica (DPOC). O modelo que melhor mimetiza a doença em humanos é o que utiliza a exposição à fumaça de cigarro. No entanto, a utilização deste modelo experimental requer um longo tempo de exposição (6 meses) e a lesão do parênquima obtida é considerada leve. O desequilíbrio protease/anti-protease é considerado um importante mecanismo fisiopatológico envolvido no desenvolvimento da DPOC. Desta forma, neste estudo propomos o desenvolvimento de um modelo experimental no qual associamos a instilação de elastase previamente ao início da exposição ao fumo na tentativa de obter um maior grau de lesão tecidual em um menor espaço de tempo. Para tanto, camundongos C57Bl/6 foram divididos em quatro grupos: Controle, Elastase, Fumo, Fumo/Elastase 1 dose e Fumo/Elastase 2 doses e analisados após dois meses de exposição. Os animais do grupo Fumo/Elastase 1 dose e 2 doses foram submetidos à instilação intranasal de elastase pancreática de porco (0,33UI) e expostos a fumaça de cigarro por dois meses. O grupo controle recebeu o mesmo tratamento com solução fisiológica (NaCl 0.9%). A exposição ao fumo foi feita por 30min, 2 vezes/dia, 5 dias da semana. Após dois meses, os animais foram sacrificados e observamos aumento de LM no grupo Fumo/Elastase 1 dose e 2 doses comparado aos grupos Controle e Fumo; aumento de células positivas para MAC-2 no parênquima (Fumo/Elastase 2 doses) e vias aéreas (Fumo/Elastase 1 dose e 2 doses), MMP-12 no parênquima pulmonar (Fumo/Elastase 2 doses), GP91 no parênquima (Fumo/Elastase 1 dose e 2 doses) e vias aéreas (Fumo e Fumo/Elastase 1 dose) e aumento de proporção de fibras elásticas no parênquima pulmonar do grupo Fumo/Elastase 1 dose e do grupo Fumo, caracterizando presença de enfisema pulmonar. A instilação de elastase pancreática de porco juntamente com a exposição à fumaça de cigarro aumentou a susceptibilidade ao desenvolvimento do enfisema / Experimental models have been used to study the pathophysiological mechanisms involved in the development of COPD. Cigarette Smoke exposure (CS) is considered the best model to mimetize the disease in humans. However, the CS requires a long exposure time (6 months) and the parenchymal destruction obtained is considered mild. The protease / anti - protease imbalance is considered an important pathophysiological mechanism involved in the development of COPD. Thus, in this study we propose the development of an experimental model in which we associate instillation of elastase before the start of exposure to smoke, trying to increase the parenchymal destruction degree in a shorter time. For that, C57BL / 6 mice were divided into four groups: Control, Elastase, Smoke and Smoke/Elastase 1 dose and Smoke/Elastase 2 doses and analyzed in two months after the CS exposition. The Smoke/Elastase 1 dose and 2 doses animals group received an intranasal instillation of porcine pancreatic elastase (0.33 IU) and exposed to cigarette smoke for two months. The control group received the same treatment with saline (NaCl 0.9 %). Animals were exposed to CS for 30min, 2 times / day, 5 days a week. After two months, we observed increased mean linear intercept (LM) and positive cells for MAC-2, MMP-12 and GP91 in the airways and lung parenchyma and increase of elastic fibers in the lung parenchyma characterizing the presence of pulmonary emphysema. The instillation of porcine pancreatic elastase along the exposure to cigarette smoke increased susceptibility to the development of emphysema
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O papel do fator nuclear kappa B (NF-kB) e do eixo IL-12/23-IFN-g na ativação do sistema NADPH oxidase. / The role of nuclear factor kappa B (NF-kB) and the IL-12/23-IFN-g axis in the activation of the NADPH oxidase system.Aragão Filho, Walmir Cutrim 26 March 2009 (has links)
O sistema NADPH oxidase é um complexo enzimático gerador de superóxido. O NF-kB é um fator de transcrição envolvido no controle da expressão de diversos genes ligados à resposta inflamatória. Defeitos no eixo IL-12/23-IFN-g resultam em infecções recorrentes e à susceptibilidade mendeliana a micobacterioses, podendo diminuir a expressão do componente gp91-phox da NADPH oxidase. Estudamos qual é a relação direta do NF-kB e de defeitos no eixo IL-12/23-IFN-g na regulação dos genes CYBA, NCF1, NCF2 e NCF4 do sistema NADPH oxidase humano em células U937, células B EBV transformadas provenientes de pacientes com EDA-ID, DGC, ou de pacientes com defeitos no eixo IL-12/23-IFN-g. A expressão dos genes NCF1 e NCF2 foi diminuída em células com defeitos no eixo (IFNGR1 e INFGR2) e em células U937 IkB S32A/S36A. A expressão do gene NCF1 também foi diminuída em células EDA-ID S32I e em células EDA-ID NEMO/IKKg W420X. O NF-kB e os IFNGR1 e INFGR2 são necessários para a expressão dos genes NCF1 e NCF2 e para a ativação do sistema NADPH oxidase humano neste sistema modelo. / The NADPH oxidase system is an enzymatic complex that generates superoxide. The NF-kB is a transcriptional factor involved in the expression of several genes related to the inflammatory response. The IL-12/23-IFN-g axis defects lead to recurrent infections and to the mendelian susceptibility of mycobacterial disease (MSMD), and they can decrease the gp91-phox expression (a NADPH oxidase component). We studied the NF-kB and the IL-12/23-IFN-g axis defects consequences on the regulation of CYBA, NCF1, NCF2 and NCF4 genes of the human NADPH oxidase system in U937 cells, and in B EBV cells from patients with EDA-ID, DGC, or patients with IL-12/23-IFN-g axis defects. The NCF1 and NCF2 gene expression was decreased in IL-12/23-IFN-g axis defects cells (IFNGR1 and INFGR2) and in U937 IkB S32A/S36A cells. NCF1 gene expression was decreased in EDA-ID S32I and in EDA-ID NEMO/IKKg W420X cell lineages. The NF-kB and the IFNGR1 and INFGR2 are necessary for NCF1 and NCF2 gene expression and activation of the human NADPH oxidase in this model system.
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Etude de la dynamique des domaines de la NADPH-cytochrome P450 réductase humaine / Dynamics of domains in human cytochrome P450 NADPH reductaseFatemi, Fataneh 21 June 2013 (has links)
La NADPH cytochrome P450 réductase (CPR) est une flavoprotéine multidomaines appartenant à la famille des diflavines réductases et un des composants essentiels du système redox des cytochromes P450. La CPR est formée de deux domaines catalytiques contenant des groupements prosthétiques FAD et FMN et d'un domaine de connexion. Le domaine FAD reçoit deux électrons du NADPH et les transfère un par un au domaine FMN, qui, à son tour, les transfère aux accepteurs. Le transfert d’électron du FMN vers les accepteurs nécessite un déplacement du domaine FMN par rapport au reste de la molécule. Au fils des années, les études structurales menées sur la CPR ont mis en évidence la réorganisation structurale et l’arrangement des domaines dans cette protéine. Cependant, les résultats de ces analyses ne fournissent pas d’informations concernant la vitesse à laquelle les mouvements des domaines de la CPR s’effectuent et n’incluent toujours pas les paramètres qui induisent le changement conformationnel ainsi que l'influence de ces changements sur l’activité catalytique de la CPR.Le projet de cette thèse a consisté à apporter de nouveaux éléments de compréhension sur la relation entre les changements conformationnels de la CPR et son cycle catalytique. La première partie de ce travail a porté sur le développement de stratégies de préparation au marquage des domaines catalytiques de la CPR, destinés à l’étude dynamique de cette protéine par le FRET. Différentes stratégies ont été envisagées parmi lesquelles l’incorporation de p-acétyle phénylalanine sur des positions définies dans la CPR. La deuxième partie de ce travail est consacrée à l’étude dynamique de la CPR via des techniques de RMN et SAXS combinées à des approches biochimiques. Les expériences menées ont permis de caractériser en solution et en absence de NaCl, la présence d’un état rigide, globulaire en conformation fermée dans laquelle les domaines FMN et FAD sont maintenus « verrouillés » par des interactions à l’interface entre ces deux domaines. L’augmentation de la concentration en NaCl permet une transition de cet état « verrouillé » vers un état plus ouvert pour lequel il n’y a plus d’interface entre les domaines FAD et FMN. L’état « déverrouillé » de la CPR correspond à un équilibre dynamique entre un ensemble de conformations en échange rapide. Cet équilibre est contrôlé par la force ionique et l’activité catalytique de la CPR est maximale lorsque les états verrouillés et déverrouillés sont également peuplés. Le modèle cinétique proposé par nos études a permis de mettre en évidence un lien direct entre la dynamique des domaines et l’activité du transfert d’électron au cours de cycle catalytique de la CPR. / NADPH cytochrome P450 reductase (CPR) is a multidomain flavoprotein that belongs to the diflavines reductase family. It is an essential component of redox system delivering electrons for cytochrome P450. CPR is composed of two catalytic domains containing FAD and FMN prosthetic groups and a connecting domain. FAD domain receives two electrons from NADPH and transfers them one by one to the FMN domain, which in turn transfers them to the acceptor. The electron transfer from FMN to the acceptor requires a large domain movement. Over the years, structural studies of CPR have highlighted the reorganization and arrangement of domains in this protein. However, the results of these analyses do not provide any information about how fast the domains movements takes place in CPR, and do not always include the parameters that induce conformational change as well as influence of those changes on the catalytic activity of the CPR. This thesis aims to bring new elements of comprehension on the relationship between conformational changes in CPR and its catalytic cycle. The first part of the work concerned the development of strategies to label the catalytic domains of CPR, a prerequisite for the dynamic study of this protein by FRET. Different strategies have been proposed including the incorporation of p-acetyl phenylalanine at defined positions in CPR. The second part of this work is devoted to the dynamic study of CPR through a combined SAXS, NMR and biochemical approaches. The experiments conducted allowed to characterize the presence of a rigid and globular state of closed conformation for CPR, in solution and in the absence of NaCl. In this conformation the FMN and FAD domains are kept "locked" by interface interactions between these two domains. Increasing the NaCl concentration permits the transition from the "locked" stats to an open conformation in which there is no more interface between the FAD and FMN domains. The "unlocked" state of CPR is a dynamic equilibrium between ensembles of conformations in fast exchange. This equilibrium is controlled by the ionic strength and CPR presents its maximum catalytic activity when the locked and unlocked states are equally populated. We proposed a kinetic model which allows demonstrating a direct link between the domain movement and electron transfer activity during the catalytic cycle of CPR.
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Fonction, expression et localisation cellulaire du récepteur B1 des kinines chez le rat diabétiqueHaddad, Youssef 12 1900 (has links)
No description available.
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Uma nova abordagem para o estudo dos defeitos genético-moleculares da doença granulomatosa crônica e análise de suas relações genótipo-fenótipo. / A new approach to study of molecular-genetic defects of chronic granulomatous disease and analysis of its genotype-phenotype relationships.Oliveira Júnior, Edgar Borges de 30 September 2010 (has links)
A Doença Granulomatosa Crônica é uma imunodeficiência grave e rara, na qual os quadros infecciosos por bactérias e fungos, ocorrem predominantemente nas barreiras naturais do organismo. O defeito reside em mutações em um dos componentes do sistema NADPH oxidase. O dHPLC mostrou-se mais sensível que o SSCP, sendo eficaz na detecção de alterações em 100% dos casos. Identificamos sete mutações diferentes no gene CYBB, sendo quatro delas inéditas. São elas R226X; R290X; e C537R. Dentre as mutações inéditas identificamos: T302fsX46; c.141 +5 G> T; C185R; e H222L. Identificamos a mutação V25fsX51 no gene NCF1 em duas pacientes. Estabelecemos uma correlação entre genótipo e fenótipo clínico baseado em manifestações clínicas relevantes na DGC, nos fornecendo dados importantes de cada manifestação clínica e um índice de gravidade clínica (IGC) para cada tipo de mutação. Os resultados contribuem para a construção de estratégias que permitam a identificação dos defeitos genético-moleculares relacionados à DGC. / Chronic granulomatous disease is a primary immunodeficiency characterized by recurrent and severe infections, affecting the body barriers. In these patients, phagocytes present a failure in the respiratory burst caused by a deficiency of the NADPH oxidase system, and a microbicidal defect. Mutations affecting one of the components of the NADPH oxidase system. The dHPLC proved to be more sensitive to the SSCP, being effective in detecting changes in 100% of cases. We found seven different mutations, four of which are original. Are they R226X; R290X; and C537R. Among the unpublished mutations identified: T302fsX46; c. 141 + 5 G > T; C185R; and H222L. We identify the gene mutation V25fsX51 NCF1 in two patients. We have established a correlation between genotype and phenotype clinical relevant clinical manifestations based on DGC in providing important data from each clinical and clinical severity index (CSI) for each type of mutation. The results contribute to the construction of strategies enabling the identification of molecular genetic defects related to CGD.
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Role of NOX2 and DUOX2 in the antiviral airway responsesFink, Karin 01 1900 (has links)
Les voies respiratoires sont exposées à une panoplie de pathogènes. Lors d’une infection virale respiratoire les cellules qui recouvrent ces voies participent activement à la défense immunitaire contre ces derniers en limitant la propagation du virus et en engendrant une réponse proinflammatoire. Un évènement clef dans ces processus est l’activation des facteurs de transcription, notamment le « Nuclear Factor » (NF)-κB et l’« Interferon Regulatory Factor -3 » (IRF-3), qui régulent l’expression des cytokines antivirales et proinflammatoires.
Des données récentes démontrent que les dérivés actifs de l’oxygène (ROS), produits suite à une infection virale, ont la capacité de réguler les voies de signalisation enclenchées par NF-κB et IRF-3. Une source importante de ROS est la famille de NADPH oxydases (NOX), qui contient les membres NOX1-5 et DUOX1 et 2. L’objectif de notre étude était d’identifier la NOX qui régule les mécanismes antiviraux et proinflammatoires suite à l’infection avec le virus respiratoire syncytial (RSV), qui cause des complications respiratoires majeures, et le virus Sendai (SeV), un modèle viral non-pathogène.
Nos travaux ont permis d’identifier que NOX2 est une molécule clef dans la réponse proinflammatoire suite à l’infection virale. Plus spécifiquement, NOX2 est important pour l’activation de NF-κB et la sécrétion des cytokines régulées par ce dernier. De plus, nous avons observé une forte augmentation de la présence de DUOX2 dans les cellules de voies respiratoires humaines infectées par SeV. Une étude plus approfondie nous a permis de caractériser qu’une synergie entre deux cytokines secrétées lors de l’infection, soit l’interféron (IFN)β et le TNFα est responsable de l’induction de DUOX2. Nous avons aussi découvert que DUOX2 confère une activité antivirale et est nécessaire pour maintenir les taux des cytokines antivirales tardives IFNβ et IFNλ.
Lors d’une infection avec RSV, l’induction de DUOX2 n’est pas détectable. Nous avons mis en évidence que RSV interfère avec l’expression de DUOX2 ce qui pourrait suggérer sa pathogénicité.
En conclusion, nos travaux démontrent pour la première fois une implication spécifique des NADPH oxydase NOX2 et DUOX suite aux infections virales respiratoires. / The mucosal linings of the airways are constantly exposed to an array of microbial pathogens. During the course of respiratory viral infection, Airway epithelial cells (AEC) actively participate in the innate antiviral immune response by limiting the spread of respiratory viruses and by fostering a proinflammatory environment that attracts and activates players of the immune system. A key step in the establishment of the antiviral and proinflammatory state is the activation of Transcription Factors (TFs), such as Nuclear Factor (NF)-κB and Interferon Regulatory Factor 3 (IRF-3), which regulate the expression of antiviral and proinflammatory cytokines.
For the efficient functioning of these events, the signaling pathways involved underlie strict regulatory mechanisms. Recent data suggest that Reactive Oxygen Species (ROS), which are produced upon viral infection, are able to regulate these intracellular signaling pathways. One important source of ROS is the NADPH oxidase (NOX) family of enzymes, which is composed of NOX1-5 and Dual Oxidase (DUOX) 1 and DUOX2. The aim of our study was to identify the NADPH oxidase(s) that regulate(s) antiviral and proinflammatory mechanisms following infection of AEC with Respiratory syncytial virus (RSV), which causes major human lower respiratory tract complications, and Sendai virus (SeV), a non pathogenic virus.
During the course of our studies we identified that NOX2 is a key molecule in the early proinflammatory response to RSV and SeV infection. We demonstrate that NOX2 is necessary for the activation of NF-κB. Consequently, NOX2 impacts on the proinflammatory cytokine secretion upon AEC infection. Further, we observed that expression of the ROS-generating NADPH oxidase DUOX2 is strongly increased following infection of AEC with SeV. We identified that DUOX2 induction requires the synergistic stimulation by IFNβ and TNFα. Importantly, DUOX2 exhibited ROS-dependent antiviral action. We identified that DUOX2 was necessary for sustaining the levels of late antiviral cytokines IFNβ and IFNλ.
When AEC were infected with RSV, DUOX2 expression was barely detectable. Our data reveal that RSV has developed an evasion mechanism to counteract DUOX2 induction likely contributing to RSV pathogenicity.
In conclusion, our work demonstrates for the first time the specific implication of NOX2 and DUOX2 in the antiviral and proinflammatory response to respiratory virus infection.
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