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Identification of caspase-1 and caspase-3 substrates and study on caspase-1 substrates in glycolytic pathwayShao, Wei, 1970- January 2007 (has links)
No description available.
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Identification of caspase-1 and caspase-3 substrates and study on caspase-1 substrates in glycolytic pathwayShao, Wei, 1970- January 2007 (has links)
Apoptosis is executed by caspase-mediated cleavage of various proteins. Elucidating the consequence of substrate cleavage provides us with insight into cell death and other biological processes. In this study, we applied the diagonal gel approach, a proteomic strategy, to identify substrates of the inflammatory caspase, caspase-1 and the cell death executioner caspase, caspase-3. Our results showed significant overlap between the substrates cleaved by both caspase-1 and -3. Such substrates are implicated in common cellular functions, including maintenance of the cytoskeleton, folding of proteins, translation, glycolysis, bioenergetics, signaling and trafficking. An important finding is that many glycolysis enzymes were targeted specifically by caspase-1. Processing of these glycolysis enzymes by caspase-1 was confirmed by cleaving in vitro transcribed and translated substrates with recombinant caspase-1. We have focused our further analysis on certain glycolysis enzymes. We have characterized the caspase-1 cleavage site in GAPDH. Point mutation of the Aspartic acid at position 189 to Alanine (D189A) in GAPDH blocked its cleavage by caspase-1. In vivo, in a mice model of septic shock, characterized by hyperactivation of caspase-1, we observed depletion of the full-length forms of these glycolysis enzymes in the diaphragm muscle. Further studies in caspase-1 deficient mice will confirm whether this depletion, in caspase-1 proficient mice, was due to caspase-1 processing of the glycolysis enzymes. This provides a direct link between caspase-1 activation and inhibition of glycolysis, which might have important implications on loss of muscle contractility in septic shock.
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Investigating the Role of the NLRP3 Inflammasome in Statin-Induced Myopathy / The NLRP3 Inflammasome Contributes to Statin MyopathyLi, Yujin January 2016 (has links)
As a front-line treatment for cardiovascular disease, statins are among some of the most widely prescribed drugs worldwide. Statins are effective at lowering cholesterol, but approximately 7-29% of patients report some form of adverse muscle effect during the course of treatment. The severity of these side effects ranges from low-level to life-threatening myopathy. The mechanism of statin myopathy remains ill-defined, but muscle-specific E3 ubiquitin ligases have been implicated. In addition, statins have been shown to activate caspase-1 (and increase IL-1β) in immune cells, which is a key effector of the NLRP3 inflammasome. The relevance of this inflammatory response in statin myopathy remains unknown. Using C2C12 myotubes, an in vitro model of statin-induced myopathy was developed to test the impact of NLRP3 inflammasome activation on markers of statin myopathy. Gene expression of the muscle-specific E3 ubiquitin ligases atrogin-1 and MuRF-1 (atrogenes) were used as markers of statin-induced myopathy. Lipopolysaccharide priming of the NLRP3 inflammasome was found to lower the effective dose of fluvastatin required to augment atrogene expression. This effect correlated with reduced phosphorylation of Akt and FOXO3a, a transcription factor regulating atrogene expression. Statin-induced atrogene expression was also found to be dependent on an isoprenoid that is required for protein prenylation rather than cholesterol biosynthesis pathways. Fluvastatin increased caspase-1 activity in a prenylation-dependent manner and selective inhibitors of NLRP3 and caspase-1 were able to prevent increased atrogene expression with fluvastatin treatment. Therefore, the NLRP3 inflammasome contributes to markers of statin-induced myopathy through a prenylation-dependant pathway in muscle cells. This work presents a novel mechanism involved in statin myopathy, and has shown that the inflammasome may represent a new drug target to mitigate muscle symptoms in patients taking statins. / Thesis / Master of Science (MSc) / Statins are a class of widely prescribed cholesterol-lowering drugs that reduce the risk of heart attack and stroke. However, many patients often complain of statin-induced muscle side effects (myopathy) that impact their quality of life. Symptoms of this statin-induced myopathy can manifest as muscle pain and weakness. The underlying biology causing this condition is still not well understood. Independent of its cholesterol-lowering effect, statins can activate an immune receptor called the NLRP3 inflammasome, indicating that inflammation may contribute to myopathy. Therefore, the primary goal of this study was to determine if this immune response contributes to statin-induced myopathy. It was found that inhibition of the NLRP3 inflammasome lowers markers of statin myopathy. Results from this study will provide further insight into mechanisms regulating this myopathy, and may lead to new treatments that can help alleviate statin side effects in muscle.
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CASPASE-1 ACTIVATION IS CRITICAL FOR ENDOTHELIAL CELL ACTIVATION, MONOCYTE MIGRATION, AND EARLY ATHEROGENESISYin, Ying January 2013 (has links)
Atherosclerosis, considered a chronic inflammatory disease, is the underlying mechanism for several cardiovascular diseases. Hyperlipidemia is the number one risk factor for atherogenesis. Caspase-1 is an inflammatory caspase, which can be activated by the metabolic stresses through pathogen associated molecular patterns (PAMPs)-recognition receptors, (PRR) recognition and inflammasome assembly. Activated caspase-1 can initiate inflammation in multiple ways. Thus, regulating inflammasome components expression is essential to control caspase-1 activation and its subsequent inflammatory processes. I hypothesized that the readiness of inflammasome component expression for caspase-1 activation in tissues is an index for inflammation privilege. Endothelial cells (EC) which are the innermost layer of the vessel and are the critical gatekeeper for monocyte migration. The first step of atherogenesis is activation of ECs, which allows monocyte adhesion and migration into the sub-endothelial layer. I also hypothesized that caspase-1 can sense hyperlipidemia and regulate EC activation and inflammation during early atherogenesis. I first determined the expression profiles of inflammasome components, pro-inflammatory caspases and PRRs is different among tissues, and cardiovascular tissues express relative less PRRs via a database-mining method. According to the readiness of inflammasome components, tissues could be classified into three tiers. The first tier consists of tissues with constitutively expressed inflammasomes. The second tier of tissues includes potentially inducible expression of one inflammasome component. The third tier of tissues has inducible expression of at least two inflammasome components. This three-tier model can be applied to determine the inflammation privilege of tissues in response to pro-inflammatory stimuli. I also demonstrated that hyperlipidemia induced caspase-1 expression and activation in aorta along with the atherogenesis in apolipoprotein E (ApoE)-/- mice with high fat (HF) diet, experimentally. We then generated the ApoE-/-/Casp-1-/- double knockout mice, and found that the ApoE-/-/Casp-1-/- mice contained significantly less atherosclerotic lesion in aortic sinus and less cytokine and chemokine expression in aortic tissues compared with ApoE-/- mice. ApoE-/-/Casp-1-/- mice also had less CD11b+/F4/80- neutrophil and CD11b+/F4/80+ monocyte recruitments into aorta compared with ApoE-/- mice. However, the percentage of monocyte subsets in peryphery blood remained at the same level in between ApoE-/- mice and ApoE-/-/Casp-1-/- mice. I then proposed that perhaps the caspase-1 activation in vascular cells, in ECs played the essential role of controling monocyte migraion. My in vitro data demonstrated that oxidized low density lipoprotein (ox-LDL) and its componnents could induced caspase-1 activation in human aortic ECs (HAECs) through ROS pathway which then led to EC activation and pyroptotic cell death. Deficiency of caspase-1 in aortic EC attenuated hyperlipidemia induced EC activation and inflammtion. Mechanically, I found that caspase-1 deficiency accumulated an anti-atherogenic protein, Sirt-1 in the aorta. Collectively, our data suggested that caspase-1/inflammasome in ECs can sense hyperlipidemia, become activated, drive EC activation, and promote monocyte recruitment and early atherosclerosis. / Pharmacology
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Papel da endotelina-1 na ativação do NLRP3 no tecido muscular liso do corpo cavernoso / Endothelin-1 role in NLRP3 activation in smooth muscle tissue of corpora cavernosaFais, Rafael Sobrano 02 February 2016 (has links)
Introdução: A disfunção erétil (DE) é definida como a incapacidade de alcançar ou manter a ereção do pênis para um desempenho sexual satisfatório, contribuindo significativamente para a baixa qualidade de vida e morbidade psicossocial masculina. A endotelina-1 (ET-1), um potente peptídeo vasoconstritor que promove contração lenta e sustentada em células de músculo liso vascular, possui grande importância na fisiopatologia da DE. Diversos estudos mostram que o aumento da expressão de mediadores inflamatórios está intimamente ligado ao desenvolvimento da DE. O inflamassoma é um complexo multiprotéico do sistema imune inato que atua através da ativação da caspase-1 e resulta na maturação de citocinas pró- inflamatórias, tais como interleucina- IL (IL-l?). O receptor NLRP3 faz parte do inflamassoma e sua ativação leva a clivagem de caspase-1 e consequente secreção de IL-1?. A ET-1, também possui papel importante na inflamação crônica vascular, mediando a liberação de citocinas pró-inflamatórias. No entanto, ainda é desconhecido se a ação pró- inflamatória da ET-1 em células de músculo liso é mediada pela ativação da via do inflamassoma. Hipótese: A ET-1 ativa o NLRP3 em células do músculo liso do corpo cavernoso (CMLCC), promovendo alterações na reatividade do corpo cavernoso (CC). Objetivo: Avaliar o papel da endotelina-1 na ativação do NLRP3 em CMLCC de camundongos. Métodos: CMLCC de camundongos C578BL/6 (WT) e NLRP3-/- foram cultivadas em meio de cultura DMEM acrescido de soro fetal bovino (SFB), 10%, foram pré- incubadas com endotelina-1 nas concentrações de 10-9, 10-8 e 10-7 M, em presença de LPS ou veículo. Avaliamos o efeito da deleção do NLRP3 sobre a reatividade do CC (contratilidade e relaxamento mediante estímulos por campo elétrico e/ou farmacológico). Após, avaliamos o efeito da ET-1 na ativação do NLRP3, nas alterações sobre a reatividade do CC de camundongos WT, e se estas persistiriam nos camundongos NLRP3-/- e caspase1/11-/- . Resultados: As células apresentaram-se fluorescentes para marcação para ?-actina e não para Von Willebrand, caracterizando assim que não houve contaminação com células endoteliais. A incubação com a ET-1 10-7 M por 24 h na presença de LPS ou veículo aumentou a atividade da caspase-1 em CMLCC de camundongos WT e este efeito não ocorreu nas CMLCC de camundongos NLRP3-/-. Não se observou diferença com relação à massa corporal ou massa dos órgãos entre os animais WT e NLRP3-/-. O CC de animais NLRP3-/- apresenta prejuízo para o relaxamento mediado por nitroprussiato de sódio (NPS) quando comparado com as tiras de CC de camundongos WT. A incubação com ET-1 10-7 M por 4 horas promove aumento na contração para fenilefrina (PE) e prejuízo no relaxamento induzido por nitroprussiato de sódio (NPS), e o mesmo efeito não é observado nas tiras de CC de camundongos NLRP3-/- e caspase1/11-/-. Conclusão: O NLRP3 contribui para o aumento na contração e prejuízo no relaxamento produzido pela ET-1 em CC de camundongos, possivelmente através da ativação da caspase-1 / Introduction: Erectile dysfunction (ED) is defined as the inability to achieve or maintain penile erection to perform sexual intercourse, it contributes significantly to the low quality of life and male psychosocial morbidity. Endothelin-1 (ET-1), a potent vasoconstrictor peptide that promotes slow and sustained contraction of vascular smooth muscle cells, has great importance in the pathophysiology of ED. Several studies show that increased expression of inflammatory mediators is closely linked to the development of ED. The inflammasome is a multiproteic complex of the innate immune system that acts through activation of caspase-1, which leads to maturation of pro-inflammatory cytokines such as interleukin-1 beta (IL-l?). The activation of NLRP3 receptor, part of the inflammasome, leads to caspase-1 cleavage and subsequent secretion of IL-1?. ET-1 also plays an important role in chronic vascular inflammation by mediating the release of pro-inflammatory cytokines. However, it is still unknown whether pro-inflammatory actions of ET-1 on smooth muscle cells is mediated by the activation of the inflammasome. Hypothesis: ET-1 activates NLRP3 in smooth muscle cells of the corpora cavernosa (SMCCC), promoting changes in corpus cavernosum (CC) reactivity. Objective: To evaluate the role of endothelin-1 in the activation of the NLRP3 in SMCCC of mice. Methods: SMCCC of C57BL/6 (WT) and NLRP3-/- mice were grown in DMEM culture medium supplemented with bovine fetal serum (FBS) 10%, pre-incubated with endothelin-1 at concentrations of 10-9, 10- 8 and 10-7M, in the presence of LPS or vehicle. We evaluated the effect of the NLRP3 deletion on the reactivity of the CC (contractility and relaxation by electric field and/or pharmacological stimulation). After that, we evaluated the ET-1 effect on activation NLRP3, changes on the reactivity of the CC of WT, and if these alterations would persist NLRP3-/- and caspase1/11-/- mice. Results: The cells presented fluorescent labeling to ?-actin, but not for Von Willebrand factor, characterizing absence of endothelial cells contamination. The incubation with 10-7 M ET-1 for 24 h in the presence of LPS or vehicle increased caspase-1 activity in SMCCC from WT, but not from NLRP3-/- mice. No difference was observed in body mass or weight of the organs between WT and NLRP3-/- animals. The CC from NLRP3-/- animals displayed impaired relaxation mediated by sodium nitroprusside (SNP) when compared to WT CC. The incubation with ET-1 10-7 M for 4 hours promoted an increase in the contraction to phenylephrine (PE) and reduced relaxation induced by sodium nitroprusside (SNP). The same effect was not observed in CC strips from NLRP3-/- and caspase1/11-/- mice. Conclusion: NLRP3 contributes to the increase in contraction and impaired relaxation produced by ET-1 in mice CC, possibly by activation of caspase-1
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Avaliação dos mecanismos moleculares envolvidos na expressão de iNOS mediada pelo eixo NAIP5/NLRC4-Caspase-1. / Evaluation of the molecular mechanisms involved in the iNOS expression by NAIP5/NLRC4-Caspase-1 axis.Lima, Carina Buzzo de 07 February 2014 (has links)
O reconhecimento da flagelina é compartilhado pelo receptor transmembrânico TLR5 e citosólico NAIP5/NLRC4. Entretanto, pouco se sabe sobre os mecanismos efetores individuais induzidos a partir do reconhecimento extra e intracelular da flagelina. Aqui, nós demonstramos que macrófagos estimulados com a flagelina citosólica (FLA-BSDot) induziu a expressão de iNOS, enzima responsável pela produção do óxido nítrico (NO). A expressão de iNOS foi dependente do eixo NAIP5/NLRC4/caspase-1 e independente de IL-1β, IL-18 e MyD88, descartando a via de ativação dos TLRs. Ainda, esta via não requer a ativação do fator de transcrição IRF-1, mas envolve a ativação do NF-kB, assim como a clivagem da enzima PARP-1 (poly(ADP-ribose)polymerase-1). Por fim, avaliamos a relevância biológica desta via no controle das infecções por L. pneumophila e S. Typhimurium, dados que definem um mecanismo efetor adicional no controle de patógenos. / Recognition of flagellin is shared by transmembranic TLR5 and cytosolic NAIP5/NLRC4. However, little is known about the individual effector mechanisms induced by extra and intracellular flagellin. Here, we have demonstrated that cytosolic flagellin-stimulated macrophages (FLA-BSDot) induced iNOS expression, an enzyme responsible for the production of nitric oxide (NO). iNOS expression was dependent of the NAIP5/NLRC4/caspase-1 axis and independent of IL-1β, IL-18 and MyD88, discarding TLRs signaling pathway. Still, this pathway do not require the activation of IRF-1 transcriptional factor, but involves NF-kB activation as well as the cleavage of the enzyme, PARP-1 (poly(ADP-ribose)polymerase-1). Finally, we have evaluated the biological relevance of this pathway in the control of the infections by L. pneumophila e S. Typhimurium, which define an additional effector mechanism to the control of pathogens.
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Ativação de caspase-1 e formação de poros em macrófagos infectados por Legionella pneumophila / Caspase-1 activation and pore formation in murine macrophages infected with Legionella pneumophilaSilveira, Tatiana Nunes 15 April 2010 (has links)
Legionella pneumophila, o agente etiológico da doença dos Legionários, é conhecida por desencadear a formação de poro em membranas de macrófagos derivados de medula óssea (BMMs) por mecanismos dependentes do sistema de secreção do tipo IV conhecido como Dot/Icm. Neste trabalho, foram utillizados vários mutantes de L. pneumophila em combinação com camundongos nocautes para investigar os fatores bacterianos e do hospedeiro envolvidos na formação de poro em BMMs. Observamos que apesar da atividade do Dot/Icm, a formação de poro não ocorre em BMMs deficientes para caspase-1 e Nlrc4. A formação de poro foi temporalmente associada com a secreção de IL-1b e precedeu a lise celular e a piroptose. A formação de poro foi dependente do Dot/Icm, mas independente de várias proteínas efetoras, da multiplicação bacteriana e da síntese de novo de proteínas. A flagelina, a qual é conhecida em ativar o inflamassoma de Nlrc4, foi necessária para a formação de poro; a bactéria mutante flaA falhou em induzir a permeabilização celular. Consequentemente, a transfecção da flagelina purificada foi suficiente para desencadear a formação de poro independente da infecção. Utilizando 11 diferentes espécies de Legionella, nós observamos alta formação de poro em resposta à L. micdadei, L. bozemanii, L. gratiana, L. jordanis e L. rubrilucens, e essa resposta estava correlacionada com a expressão de flagelina por essas espécies. Além disso, verificamos que as proteínas Asc e Caspase-11 apresentam fenótipo intermediário na formação de poro, sugerindo que outras vias podem estar envolvidas no processo. Observamos também que a formação de poro desencadeada por L. pneumophila difere daquela induzida pelo ATP. Em conjunto, nossos resultados sugerem que a formação de poro não é uma resposta específica de L. pneumophila nem o resultado de dano da membrana induzido pelo Dot/Icm. Ao invés disso, a formação de poro é uma resposta do hospedeiro altamente coordenada, dependente dos componentes do inflamassoma Nlrc4 e caspase-1 e é desencadeada em resposta a bactérias que expressam o sistema de secreção do tipo IV e flagelina. / Legionella pneumophila, the etiological agent of Legionnaires disease, is known to trigger pore formation in bone marrow-derived macrophages (BMMs) by mechanisms dependent on the type IVB secretion system known as Dot/Icm. Here, we used several mutants of L. pneumophila in combination with knockout mice to assess the host and bacterial factors involved in pore formation in BMMs. We found that regardless of Dot/Icm activity, pore formation does not occur in BMMs deficient in caspase-1 and Nlrc4/Ipaf. Pore formation was temporally associated with IL-1b secretion and preceded host cell lysis and pyroptosis. Pore-forming ability was dependent on bacterial Dot/Icm but independent of several effector proteins, multiplication and de novo protein synthesis. Flagellin, which is known to trigger the Nlrc4 inflammasome, was required for pore formation as flaA mutant bacteria failed to induce cell permeabilization. Accordingly, transfection of purified flagellin was sufficient to trigger pore formation independent of infection. By using 11 different Legionella species, we found robust pore formation in response to L. micdadei, L. bozemanii, L. gratiana, L. jordanis and L. rubrilucens, and this trait correlated with flagellin expression by these species. Furthermore, we found that Asc and Caspase-11 showed an intermediate phenotype in pore formation, suggesting that other pathways may be involved in this process. We also observed that the pore formation triggered by L. pneumophila differs from the pore induced by ATP. Together, the results suggest that pore formation is neither L. pneumophilaspecific nor the result of membrane damage induced by Dot/Icm activity; instead, it is a highly coordinated host cell response dependent on host Nlrc4 and caspase-1 and on bacterial flagellin and type IV secretion system.
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Papel da endotelina-1 na ativação do NLRP3 no tecido muscular liso do corpo cavernoso / Endothelin-1 role in NLRP3 activation in smooth muscle tissue of corpora cavernosaRafael Sobrano Fais 02 February 2016 (has links)
Introdução: A disfunção erétil (DE) é definida como a incapacidade de alcançar ou manter a ereção do pênis para um desempenho sexual satisfatório, contribuindo significativamente para a baixa qualidade de vida e morbidade psicossocial masculina. A endotelina-1 (ET-1), um potente peptídeo vasoconstritor que promove contração lenta e sustentada em células de músculo liso vascular, possui grande importância na fisiopatologia da DE. Diversos estudos mostram que o aumento da expressão de mediadores inflamatórios está intimamente ligado ao desenvolvimento da DE. O inflamassoma é um complexo multiprotéico do sistema imune inato que atua através da ativação da caspase-1 e resulta na maturação de citocinas pró- inflamatórias, tais como interleucina- IL (IL-l?). O receptor NLRP3 faz parte do inflamassoma e sua ativação leva a clivagem de caspase-1 e consequente secreção de IL-1?. A ET-1, também possui papel importante na inflamação crônica vascular, mediando a liberação de citocinas pró-inflamatórias. No entanto, ainda é desconhecido se a ação pró- inflamatória da ET-1 em células de músculo liso é mediada pela ativação da via do inflamassoma. Hipótese: A ET-1 ativa o NLRP3 em células do músculo liso do corpo cavernoso (CMLCC), promovendo alterações na reatividade do corpo cavernoso (CC). Objetivo: Avaliar o papel da endotelina-1 na ativação do NLRP3 em CMLCC de camundongos. Métodos: CMLCC de camundongos C578BL/6 (WT) e NLRP3-/- foram cultivadas em meio de cultura DMEM acrescido de soro fetal bovino (SFB), 10%, foram pré- incubadas com endotelina-1 nas concentrações de 10-9, 10-8 e 10-7 M, em presença de LPS ou veículo. Avaliamos o efeito da deleção do NLRP3 sobre a reatividade do CC (contratilidade e relaxamento mediante estímulos por campo elétrico e/ou farmacológico). Após, avaliamos o efeito da ET-1 na ativação do NLRP3, nas alterações sobre a reatividade do CC de camundongos WT, e se estas persistiriam nos camundongos NLRP3-/- e caspase1/11-/- . Resultados: As células apresentaram-se fluorescentes para marcação para ?-actina e não para Von Willebrand, caracterizando assim que não houve contaminação com células endoteliais. A incubação com a ET-1 10-7 M por 24 h na presença de LPS ou veículo aumentou a atividade da caspase-1 em CMLCC de camundongos WT e este efeito não ocorreu nas CMLCC de camundongos NLRP3-/-. Não se observou diferença com relação à massa corporal ou massa dos órgãos entre os animais WT e NLRP3-/-. O CC de animais NLRP3-/- apresenta prejuízo para o relaxamento mediado por nitroprussiato de sódio (NPS) quando comparado com as tiras de CC de camundongos WT. A incubação com ET-1 10-7 M por 4 horas promove aumento na contração para fenilefrina (PE) e prejuízo no relaxamento induzido por nitroprussiato de sódio (NPS), e o mesmo efeito não é observado nas tiras de CC de camundongos NLRP3-/- e caspase1/11-/-. Conclusão: O NLRP3 contribui para o aumento na contração e prejuízo no relaxamento produzido pela ET-1 em CC de camundongos, possivelmente através da ativação da caspase-1 / Introduction: Erectile dysfunction (ED) is defined as the inability to achieve or maintain penile erection to perform sexual intercourse, it contributes significantly to the low quality of life and male psychosocial morbidity. Endothelin-1 (ET-1), a potent vasoconstrictor peptide that promotes slow and sustained contraction of vascular smooth muscle cells, has great importance in the pathophysiology of ED. Several studies show that increased expression of inflammatory mediators is closely linked to the development of ED. The inflammasome is a multiproteic complex of the innate immune system that acts through activation of caspase-1, which leads to maturation of pro-inflammatory cytokines such as interleukin-1 beta (IL-l?). The activation of NLRP3 receptor, part of the inflammasome, leads to caspase-1 cleavage and subsequent secretion of IL-1?. ET-1 also plays an important role in chronic vascular inflammation by mediating the release of pro-inflammatory cytokines. However, it is still unknown whether pro-inflammatory actions of ET-1 on smooth muscle cells is mediated by the activation of the inflammasome. Hypothesis: ET-1 activates NLRP3 in smooth muscle cells of the corpora cavernosa (SMCCC), promoting changes in corpus cavernosum (CC) reactivity. Objective: To evaluate the role of endothelin-1 in the activation of the NLRP3 in SMCCC of mice. Methods: SMCCC of C57BL/6 (WT) and NLRP3-/- mice were grown in DMEM culture medium supplemented with bovine fetal serum (FBS) 10%, pre-incubated with endothelin-1 at concentrations of 10-9, 10- 8 and 10-7M, in the presence of LPS or vehicle. We evaluated the effect of the NLRP3 deletion on the reactivity of the CC (contractility and relaxation by electric field and/or pharmacological stimulation). After that, we evaluated the ET-1 effect on activation NLRP3, changes on the reactivity of the CC of WT, and if these alterations would persist NLRP3-/- and caspase1/11-/- mice. Results: The cells presented fluorescent labeling to ?-actin, but not for Von Willebrand factor, characterizing absence of endothelial cells contamination. The incubation with 10-7 M ET-1 for 24 h in the presence of LPS or vehicle increased caspase-1 activity in SMCCC from WT, but not from NLRP3-/- mice. No difference was observed in body mass or weight of the organs between WT and NLRP3-/- animals. The CC from NLRP3-/- animals displayed impaired relaxation mediated by sodium nitroprusside (SNP) when compared to WT CC. The incubation with ET-1 10-7 M for 4 hours promoted an increase in the contraction to phenylephrine (PE) and reduced relaxation induced by sodium nitroprusside (SNP). The same effect was not observed in CC strips from NLRP3-/- and caspase1/11-/- mice. Conclusion: NLRP3 contributes to the increase in contraction and impaired relaxation produced by ET-1 in mice CC, possibly by activation of caspase-1
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Inflammatory proteins in the CNS - relation to Alzheimer's disease /Lindberg, Catharina, January 2005 (has links)
Diss. (sammanfattning) Stockholm : Karol. inst., 2005. / Härtill 5 uppsatser.
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Ativação de caspase-1 e formação de poros em macrófagos infectados por Legionella pneumophila / Caspase-1 activation and pore formation in murine macrophages infected with Legionella pneumophilaTatiana Nunes Silveira 15 April 2010 (has links)
Legionella pneumophila, o agente etiológico da doença dos Legionários, é conhecida por desencadear a formação de poro em membranas de macrófagos derivados de medula óssea (BMMs) por mecanismos dependentes do sistema de secreção do tipo IV conhecido como Dot/Icm. Neste trabalho, foram utillizados vários mutantes de L. pneumophila em combinação com camundongos nocautes para investigar os fatores bacterianos e do hospedeiro envolvidos na formação de poro em BMMs. Observamos que apesar da atividade do Dot/Icm, a formação de poro não ocorre em BMMs deficientes para caspase-1 e Nlrc4. A formação de poro foi temporalmente associada com a secreção de IL-1b e precedeu a lise celular e a piroptose. A formação de poro foi dependente do Dot/Icm, mas independente de várias proteínas efetoras, da multiplicação bacteriana e da síntese de novo de proteínas. A flagelina, a qual é conhecida em ativar o inflamassoma de Nlrc4, foi necessária para a formação de poro; a bactéria mutante flaA falhou em induzir a permeabilização celular. Consequentemente, a transfecção da flagelina purificada foi suficiente para desencadear a formação de poro independente da infecção. Utilizando 11 diferentes espécies de Legionella, nós observamos alta formação de poro em resposta à L. micdadei, L. bozemanii, L. gratiana, L. jordanis e L. rubrilucens, e essa resposta estava correlacionada com a expressão de flagelina por essas espécies. Além disso, verificamos que as proteínas Asc e Caspase-11 apresentam fenótipo intermediário na formação de poro, sugerindo que outras vias podem estar envolvidas no processo. Observamos também que a formação de poro desencadeada por L. pneumophila difere daquela induzida pelo ATP. Em conjunto, nossos resultados sugerem que a formação de poro não é uma resposta específica de L. pneumophila nem o resultado de dano da membrana induzido pelo Dot/Icm. Ao invés disso, a formação de poro é uma resposta do hospedeiro altamente coordenada, dependente dos componentes do inflamassoma Nlrc4 e caspase-1 e é desencadeada em resposta a bactérias que expressam o sistema de secreção do tipo IV e flagelina. / Legionella pneumophila, the etiological agent of Legionnaires disease, is known to trigger pore formation in bone marrow-derived macrophages (BMMs) by mechanisms dependent on the type IVB secretion system known as Dot/Icm. Here, we used several mutants of L. pneumophila in combination with knockout mice to assess the host and bacterial factors involved in pore formation in BMMs. We found that regardless of Dot/Icm activity, pore formation does not occur in BMMs deficient in caspase-1 and Nlrc4/Ipaf. Pore formation was temporally associated with IL-1b secretion and preceded host cell lysis and pyroptosis. Pore-forming ability was dependent on bacterial Dot/Icm but independent of several effector proteins, multiplication and de novo protein synthesis. Flagellin, which is known to trigger the Nlrc4 inflammasome, was required for pore formation as flaA mutant bacteria failed to induce cell permeabilization. Accordingly, transfection of purified flagellin was sufficient to trigger pore formation independent of infection. By using 11 different Legionella species, we found robust pore formation in response to L. micdadei, L. bozemanii, L. gratiana, L. jordanis and L. rubrilucens, and this trait correlated with flagellin expression by these species. Furthermore, we found that Asc and Caspase-11 showed an intermediate phenotype in pore formation, suggesting that other pathways may be involved in this process. We also observed that the pore formation triggered by L. pneumophila differs from the pore induced by ATP. Together, the results suggest that pore formation is neither L. pneumophilaspecific nor the result of membrane damage induced by Dot/Icm activity; instead, it is a highly coordinated host cell response dependent on host Nlrc4 and caspase-1 and on bacterial flagellin and type IV secretion system.
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