999 resultados para MESANGIAL CELLS


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A insuficiência renal crônica (IRC) é caracterizada por alterações glomerulares secundárias aos mecanismos adaptativos ocasionados por perda de néfrons funcionantes. Alterações na hemodinâmica glomerular, proliferação celular, influxo de células inflamatórias, desequilíbrio na síntese de proteínas da matriz extracelular glomerular (MECG) e perda da seletividade de carga e/ou tamanho da membrana basal glomerular têm sido apontados como mecanismos envolvidos na expansão mesangial e conseqüente glomeruloesclerose. A participação dos hormônios sexuais na função renal e na evolução da insuficiência renal crônica tem sido sugerida. Os glicosaminoglicanos, especialmente o heparan sulfato (HS), têm sido associados à seletividade glomerular de macromoléculas. O remodelamento podocitário precoce e a proteinuria (PTN) se relacionam com a progressão da IRC. Neste contexto, o acúmulo de MECG, proliferação de miofibroblastos e PTN têm sido apontados como mediadores precoces que precedem as lesões glomerulares e túbulo-intersticiais. Neste estudo, avaliamos as alterações renais precoces (30 dias de IRC) gênero-dependentes em ratos (M) e ratas (F) Wistar submetidos à redução de 5/6 da massa renal (IRC) e à castração (c). Os animais foram divididos em 10 grupos: Controles (C) (CM, CF, CMc, CFc) e sham (CM sham, CF sham); e aqueles submetidos à nefrectomia 5/6: IRCM, IRCF, IRCMc, IRCFc. Os animais foram castrados com 5 semanas e submetidos à nefrectomia 5/6 com 7 semanas de idade. Resultados significativos mostraram que os machos com IRC apresentaram maior PTN, acompanhada de maior comprometimento mesangial, imunomarcação positiva para α-actina e maior concentração de heparan sulfato (HS) comparados com as fêmeas IRC (p<0,05). Estas alterações foram reduzidas nos machos castrados. A análise da morfologia podocitária mostrou raras regiões onde ocorreram alterações podocitárias nos grupos IRC. O conjunto de dados sugere que o hormônio masculino pode participar na manutenção do equilíbrio mesangial e que a PTN participa do processo de expansão mesangial. Adicionalmente, a maior concentração de HS nos machos com IRC sugere que durante o processo de remodelação da MEG, tenha ocorrido geração de HS de novo, funcionalmente defeituoso, comprometendo a barreira de filtração glomerular, corroborando com a perda de seletividade da mesma e, contribuindo para maior PTN neste grupo. As fêmeas com IRC apresentaram alterações mais discretas quando comparadas aos machos; apresentaram decréscimo de HS renal associado a PTN e a castração não alterou este perfil. Em resumo, a PTN ocorre precocemente na IRC, contribuindo para o desequilíbrio da MECG. Os mecanismos envolvidos nestes processos parecem sofrer influência dos hormônios sexuais; e os hormônios masculinos parecem agravar estas alterações, contribuindo possivelmente para um pior prognóstico da doença renal nos machos.

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While TRAIL is a promising anticancer agent due to its ability to selectively induce apoptosis in neoplastic cells, many tumors, including pancreatic ductal adenocarcinoma (PDA), display intrinsic resistance, highlighting the need for TRAIL-sensitizing agents. Here we report that TRAIL-induced apoptosis in PDA cell lines is enhanced by pharmacological inhibition of glycogen synthase kinase-3 (GSK-3) or by shRNA-mediated depletion of either GSK-3 alpha or GSK-3 beta. In contrast, depletion of GSK-3 beta, but not GSK-3 alpha, sensitized PDA cell lines to TNF alpha-induced cell death. Further experiments demonstrated that TNF alpha-stimulated I kappa B alpha phosphorylation and degradation as well as p65 nuclear translocation were normal in GSK-3 beta-deficient MEFs. Nonetheless, inhibition of GSK-3 beta function in MEFs or PDA cell lines impaired the expression of the NF-kappa B target genes Bcl-xL and cIAP2, but not I kappa B alpha. Significantly, the expression of Bcl-xL and cIAP2 could be reestablished by expression of GSK-3 beta targeted to the nucleus but not GSK-3 beta targeted to the cytoplasm, suggesting that GSK-3 beta regulates NF-kappa B function within the nucleus. Consistent with this notion, chromatin immunoprecipitation demonstrated that GSK-3 inhibition resulted in either decreased p65 binding to the promoter of BIR3, which encodes cIAP2, or increased p50 binding as well as recruitment of SIRT1 and HDAC3 to the promoter of BCL2L1, which encodes Bcl-xL. Importantly, depletion of Bcl-xL but not cIAP2, mimicked the sensitizing effect of GSK-3 inhibition on TRAIL-induced apoptosis, whereas Bcl-xL overexpression ameliorated the sensitization by GSK-3 inhibition. These results not only suggest that GSK-3 beta overexpression and nuclear localization contribute to TNF alpha and TRAIL resistance via anti-apoptotic NF-kappa B genes such as Bcl-xL, but also provide a rationale for further exploration of GSK-3 inhibitors combined with TRAIL for the treatment of PDA.

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Bordetella pertussis causes whooping cough, a respiratory infectious disease that is the fifth largest cause of vaccine-preventable death in infants. Though historically considered an extracellular pathogen, this bacterium has been detected both in vitro and in vivo inside phagocytic and non-phagocytic cells. However the precise mechanism used by B. pertussis for cell entry, or the putative bacterial factors involved, are not fully elucidated. Here we find that adenylate cyclase toxin (ACT), one of the important toxins of B. pertussis, is sufficient to promote bacterial internalisation into non-phagocytic cells. After characterization of the entry route we show that uptake of "toxin-coated bacteria" proceeds via a clathrin-independent, caveolae-dependent entry pathway, allowing the internalised bacteria to survive within the cells. Intracellular bacteria were found inside non-acidic endosomes with high sphingomyelin and cholesterol content, or "free" in the cytosol of the invaded cells, suggesting that the ACT-induced bacterial uptake may not proceed through formation of late endolysosomes. Activation of Tyr kinases and toxin-induced Ca2+-influx are essential for the entry process. We hypothesize that B. pertussis might use ACT to activate the endocytic machinery of non-phagocytic cells and gain entry into these cells, in this way evading the host immune system.

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Silver nanoparticles (Ag NPs) are increasingly used in many products and are expected to end up in the aquatic environment. Mussels have been proposed as marine model species to evaluate NP toxicity in vitro. The objective of this work was to assess the mechanisms of toxicity of Ag NPs on mussel hemocytes and gill cells, in comparison to ionic and bulk Ag. Firstly, cytotoxicity of commercial and maltose stabilized Ag NPs was screened in parallel with the ionic and bulk forms at a wide range of concentrations in isolated mussel cells using cell viability assays. Toxicity of maltose alone was also tested. LC50 values were calculated and the most toxic Ag NPs tested were selected for a second step where sublethal concentrations of each Ag form were tested using a wide array of mechanistic tests in both cell types. Maltose-stabilized Ag NPs showed size-dependent cytotoxicity, smaller (20 nm) NPs being more toxic than larger (40 and 100 nm) NPs. Maltose alone provoked minor effects on cell viability. Ionic Ag was the most cytotoxic Ag form tested whereas bulk Ag showed similar cytotoxicity to the commercial Ag NPs. Main mechanisms of action of Ag NPs involved oxidative stress and genotoxicity in the two cell types, activation of lysosomal AcP activity, disruption of actin cytoskeleton and stimulation of phagocytosis in hemocytes and increase of MXR transport activity and inhibition of Na-K-ATPase in gill cells. Similar effects were observed after exposure to ionic and bulk Ag in the two cell types, although generally effects were more marked for the ionic form. In conclusion, results suggest that most observed responses were due at least in part to dissolved Ag.