Restoration of Lung Sphingosine Levels Improves the Immune Response to Infection in a Murine Two-hit Sepsis/Pneumonia Model

Whitacre, Brynne E.

January 2017

No description available.

Immunology

sepsis

sphingosine

microparticles

alveolar macrophage

pulmonary infection

CLP

Efeito da infecção crônica por Toxoplasma gondii durante a sepse polimicrobiana experimental / Effect of chronic infection by Toxoplasma gondii during experimental polymicrobial sepsis.

Souza, Maria do Carmo

15 April 2013

A maioria dos estudos da interação parasito-hospedeiro tem focado na interação de um único patógeno. Porém, o hospedeiro em um ambiente natural é comumente exposto a múltiplos patógenos sequencialmente ou mesmo simultaneamente. Diversos estudos têm utilizado o modelo de Ligadura e perfuração do Ceco (CLP) para estudar a sepse, mas nenhum deles apresentou modelo de coinfecção ou estudo avaliando o papel de infecções prévias no desfecho da sepse polimicrobiana experimental. Neste contexto, nossa hipótese é de que a infecção crônica por parasitos poderia alterar o curso da resposta durante a sepse polimicrobiana. Para testar essa hipótese, animais C57BL/6 ou BALB/c foram infectados com 5 ou 20 cistos da cepa ME 49 de Toxoplasma gondii e 40 dias após a infecção os animais foram induzidos à sepse polimicrobiana. Em nosso estudo, 100% dos animais cronicamente infectados por T. gondii morreram num período de 24 horas após CLP. O mesmo não foi observado quando animais foram infectados cronicamente com os parasitos Leishmania major e Trypanosoma cruzi ou com o fungo Paracoccidioides brasiliensis. Um dado interessante em nosso estudo foi que, nos animais previamente infectados com T. gondii, constatamos melhora na eliminação de bactérias liberadas pela CLP e aumento do recrutamento celular para o sítio da infecção. Apesar de esses animais apresentarem melhora na resposta contra as bactérias, verificamos a presença de lesão intestinal e maior infiltrado inflamatório neste órgão, associado a um aumento da produção de citocinas pró-inflamatórias (IFN-, TNF-, IL-6 e IL-1) e consequente aumento de óxido nítrico (NO), num período de 24 horas depois da CLP. Verificamos que as células TCD4+ e TCD8+ são responsáveis pela produção de IFN- e TNF- nesse modelo de coinfecção, e em modelo in vitro, que macrófagos podem ser responsáveis pela produção de IL-1 dependente de ativação do inflamassoma NLRP3/ASC/Caspase 1. Neste estudo, observamos que a rápida resposta contra a CLP acontece em função da presença de células de memória de padrão Th1, induzidas na infecção por T. gondii. Dessa forma, esse trabalho mostra que a infecção crônica por T. gondii agrava a sepse polimicrobiana subletal, por aumentar a produção de citocinas pró-inflamatórias IL-6, TNF- e IL-1, com a indução de hipotensão, predispondo ao choque séptico. / Most studies of parasite-host interaction have focused on the interaction of a single pathogen with cells or organism of the host. However, in a natural enviroment, the host is commonly exposed to multiple pathogens sequentially or even simultaneously. Several studies have used the model of cecal ligation and puncture (CLP) to study sepsis, but none of them evaluated the effect of the presence of previous infections to the outcome of polymicrobial sepsis. In this context, we hypothesized that chronic infection with Toxoplasma gondii could alter the course of host response against polymicrobial sepsis. To test this hypothesis, C57BL/6 or BALB/c mice were orally infected with 5 or 20 cysts of ME-49 strain of T. gondii and 40 days post infection, they were subjected to CLP. When mice were chronically infected with T. gondii, 100% of the animals died within 24 hours after CLP. The same phenomenons were not observed in animals previously infected with other parasites, such as Leishmania major and Trypanosoma cruzi or the fungus Paracoccidioides brasiliensis. Interestingly, when we evaluated the response against the CLP in animals that were infected with T. gondii, we found an improvement in the killing of bacteria released by CLP and an increase in recruitment of inflammatory cells to the site of infection. However, despite the fact that these animals have improved response against the bacterial infection, they presented intestinal damage and increased inflammatory infiltrate in this organ. The animals also had increased pro-inflammatory cytokines (IFN-, TNF-, IL-6 and IL-1), and nitric oxide (NO) detected within 24 hours after CLP. We also found that the TCD4+ and TCD8+ cells were responsible to produce IFN- and TNF-, and, using an in vitro model, we verified that macrophages are primarily responsible for the production of IL-1 in a pathway dependent on the activation of NLRP3/ASC/Caspase 1 inflamassoma. In this study, we found that early response against CLP happens due to the presence of mainly Th1 memory cells, induced by T. gondii infection. Finally, we found that chronic infection with T. gondii aggravates sublethal polymicrobial sepsis by increasing the cytokines IL-6, TNF- and IL-1, with induction of hypotension that predispose to septic shock.

Choque séptico

CLP

CLP

Gut Inflammation

Imunidade da mucosa

Inflamação intestinal

Mucosal Immunity

Sepse

Sepsis

Septic shock.

Toxoplasma gondii

Toxoplasma gondii

Insulina regula a translocação nuclear de NF-κB p65, inflamação e morte celular em modelo experimental de sepse em camundongos diabéticos / Insulin regulates NF-κB p65 nuclear translocation, inflammation and cell death in septic diabetic mice

Nolasco, Eduardo Lima

19 May 2017

Sepse é uma resposta sistêmica e deletéria do indivíduo a uma infecção, sendo um importante problema de saúde pública. Pacientes diabéticos são bastante afetados representando cerca de 22% de todos os pacientes sépticos. A suscetibilidade para o desenvolvimento de sepse no diabetes, bem como a ação da insulina em modular alguns parâmetros imunológicos necessitam de maiores esclarecimentos O objetivo deste estudo foi avaliar os efeitos do tratamento com insulina em um modelo murino de diabetes e sepse. Camundongos C57BL/6 foram tornados diabéticos por administração de aloxana. Os seguintes parâmetros foram analisados vinte e quatro horas após a ligadura cecal e punção (CLP): (a) interleukine (IL)-6, IL-10, chemokine (C -C motif) ligand 2 (CCL2) e tumor necrosis fator (TNF ) -α no soro; (b) os níveis de IL-1β, IL-6, TNF-&#945, IL-10, chemokine (C -X-C motif) ligand (CXCL)-1 e CXCL2 no lavado peritoneal (LPe) e broncoalveolar (LBA), bem como nos rins e fígado; (c) contagens celulares totais e diferenciais em LPe e LBA; (d) capacidade endocítica de neutrófilos e produção de espécies reactivas de oxigénio (ERO); (e) níveis de apoptose e necrose no baço e níveis relativos de células CD4+ e CD8+; (f) resultados histopatológicos de pulmão, rim e fígado; e (g) níveis de translocação nuclear de NF-κB p65. Camundongos diabéticos-CLP exibiram concentrações séricas aumentadas de TNF-α, IL-6, CCL2, IL-1, IL-6, CXCL1, CXCL2 e IL-10 e contagens de neutrófilos em LPe. A capacidade endocítica dos neutrófilos e a produção de ERO apresentavam-se reduzidas em animais CLP-diabéticos e os níveis de IL-6, TNF-α, CXCL1 e CXCL2 em LBA e IL-1β, IL-6, CXCL1 e CXCL2 nos homogenados renais aumentaram diabéticos -CLP. O tratamento destes com insulina reduziu os nívies de citocinas séricas, aumentou a concentração de citocinas e a migração celular para o Lpe, restaurou a capacidade endocítica e a produção de ERO e reduziu a translocação nuclear NF-κB p65 no tecido renal. Estes dados sugerem que a insulina modula a produção/libertação de citocinas, regula a migração celular, a apoptose, a necrose e a translocação nuclear de NF-κB p65 na sepse induzida por CLP em camundongos diabéticos. / Sepsis is a systemic and harmful response of the individual to infection and is an important public health problem. Diabetic patients are greatly affected representing about 22% of all septic patients. The susceptibility to sepsis development in diabetic individuals and insulin action in modulating some immunological parameters require further clarification. The aim of this study was to evaluate the effects of insulin treatment in a mouse model of diabetes and sepsis. C57BL/6 mice were rendered diabetic by alloxan administration. The following parameters were analyzed twenty-four hours after a cecal ligation and puncture (CLP): (a) interleukin (IL)-6, IL-10, chemokine (C-C motif) ligand 2 (CCL2), and tumor necrosis factor (TNF) - α levels in serum; (b) IL-1β, IL-6, TNF-α, IL-10, chemokine (C-X-C motif) ligand (CXCL)1 and CXCL2 levels in peritoneal lavage (PeL) and bronchoalveolar lavage (BAL) fluid, as well as in the kidneys and liver; (c) total and differential cell counts in PeL and BAL fluid; (d) neutrophil endocytic capacity and reactive oxygen species (ROS) production; (e) spleen cell apoptosis and necrosis levels and relative CD4+ and CD8+ T cell levels; (f) lung, kidney, and liver histopathological results; and (g) NF-kB p65 nuclear translocation levels. Diabetic-CLP mice exhibited increased serum TNF-α, IL-6, CCL2, IL-1, IL-6, CXCL1, CXCL2 and IL-10 concentrations and neutrophil counts in PeL fluid. Neutrophil endocytic capacity and ROS production were decreased in diabetic-CLP mice, and IL-6, TNF- α, CXCL1 and CXCL2 leves in BAL fluid and IL-1β, IL-6, CXCL1 and CXCL2 levels in kidney homogenates were increased in diabetic-CLP mice. Treatment of these mice with insulin reduced serum cytokine levels increased cytokine and cell migration into PeL fluid, and restored neutrophil endocytic capacity and ROS production and NF-kB p65 nuclear translocation in the kidney. These data suggest that insulin modulates cytokine production/release, regulates cellular migration, apoptosis, necrosis and NF-kB p65 nuclear translocation in CLP-induced sepsis in diabetic mice.

Citocinas

CLP

CLP

Cytokines

Diabetes mellitus

Diabetes mellitus

Disfunção de órgãos

Kidney injury

Lesão renal

Organ dysfunction

Sepses

Sepsis

Avaliação da atividade de enzimas que degradam nucleotídeos de adenina e do perfil oxidativo em ratos com sepse induzida / Evaluation activity enzymes that degrade adenine nucleotides and oxidative profile in rats with induced sepsis

Bertoncheli, Claudia de Mello

30 July 2014

Conselho Nacional de Desenvolvimento Científico e Tecnológico / Sepsis is recognized as a systemic inflammatory response (SIRS) to infection with the presence of progressive tissue damage, where multiple organ failure is the most severe expression. The purinergic signaling plays an important role in inflammatory response modulation as well as in immune responses through its extracellular biomolecules, such as adenine nucleotides and its derivative nucleoside adenosine. These signalling molecules are released by cells in response to damage or cellular stimuli induced by pathogens. Adenine nucleotides and adenosine effects are promoted by activation of specific purinergic receptors controlled by an enzymatic cascade on cell surface. In addition to immunologic changes, oxidative stress has an important part in sepsis pathophysiology, contributing to its deleterious systemic effects such as tissue hypoxia and organ failure. This study aims to evaluate the activity of the E-NTPDase, which degrade adenine nucleotides in lymphocytes, as well as analyse the oxidative profile in brain, heart, liver and kidney in rats submitted to experimental sepsis. The sepsis was induced by cecal ligation and puncture (CLP). The evaluation of the effects of sepsis on E-NTPDase activity in lymphocytes, as well as on the oxidative stress parameters in different tissues, was divided into two stages. On the first stage, the animals were split into two groups: (1) negative controls and (2) septic, which evaluated the activity of the E-NTPDase and histological analysis of the kidneys, liver and lung. On the second stage, the animals were divided into three groups: (1) negative controls, (2) sham e (3) septic. An increase in ATP hydrolysis was observed in sepsis-induced rats when compared to the control group. Nevertheless, the E-NTPDase activity remained unchanged when ADP was applied as substrate. Histological analyses of kidneys, liver and lung have shown vascular congestion, necrosis and inflammatory mononuclear cell infiltration when compared to control group. Regarding the antioxidant activity, no difference was observed in the NPSH content and SOD activity in the organs analysed. Concerning the oxidative stress parameters, the carbonyl protein content showed no significant difference in brain and liver, whilst in heart and kidney a decrease was observed in the septic group. No significant difference in TBARS levels was observed in brain, however an increase was observed in kidney while a decrease was observed in heart and liver. E. coli was identified as the etiological agent. On the septic group, significant hematological changes such as leucocytosis and thrombocytopenia were observed. This reduction in TBARS levels in heart and liver does not agree with data on the literature; this may be due to the employment of different induction techniques among studies, added to altered neutrophil function and and also the characteristics inherent to the pathogenic microorganism. Our findings suggest that the increase in ATP hydrolysis in induced sepsis may be a dynamic response in order to eliminate the increased ATP levels resulting from cell death. Regarding the oxidative stress parameters, the reduction in heart and liver may be due differences in the sepsis induction of CLP model by between different research groups added to altered neutrophil function and and also the characteristics inherent to the pathogenic microorganism. / A sepse pode ser definida como síndrome da resposta inflamatória sistêmica (SIRS) decorrente da reação do sistema imunológico à infecção, denotando um processo progressivo de dano tecidual, onde a disfunção múltipla dos órgãos é a expressão mais grave. O sistema de sinalização purinérgica desempenha um papel importante na modulação das respostas inflamatórias e imunes através de biomoléculas extracelulares, como os nucleotídeos de adenina e seu derivado nucleosídeo adenosina. Essas moléculas sinalizadoras são liberadas do meio intracelular em resposta ao dano ou ao estímulo celular por ação de patógenos. Os efeitos dos nucleotídeos de adenina e da adenosina são promovidos através da ativação de receptores purinérgicos específicos e controlados por uma cascata enzimática localizada na superfície das células. Além das alterações imunes, o estresse oxidativo desempenha um importante papel na patofisiologia desta doença, contribuindo para os principais efeitos sistêmicos deletérios da sepse como a hipóxia tecidual e a falência de órgãos. Sendo assim, visando à melhor compreensão desta patologia, este trabalho teve por objetivo avaliar a atividade da enzima E-NTPDase em linfócitos bem como analisar o perfil oxidativo em cérebro, coração, fígado e rins em ratos submetidos à sepse experimental utilizando a técnica de ligação e perfuração do ceco (CLP). Os procedimentos para avaliação dos efeitos da sepse sob a atividade das enzimas ENTPDase em linfócitos e sob os parâmetros de estresse oxidativo nos tecidos foram divididos em duas etapas. Na primeira etapa, os animais foram divididos em dois grupos: (1) controle negativo e (2) séptico, onde se avaliou a atividade da E-NTPDase e a análise histológica dos rins, fígado e pulmão. Para a segunda etapa, os animais foram divididos em 3 grupos: (1) controle negativo, (2) Sham e (3) séptico, na qual se determinou os parâmetros de estresse oxidativo, bem como o perfil bacteriano e hematológico. Observou-se um aumento na hidrólise de ATP em ratos com sepse induzida quando comparado ao grupo controle. Contudo, a atividade da E-NTPDase não foi alterada, quando utilizado ADP como substrato. Pelas análises histológicas de rins, fígado e pulmão verificou-se no grupo séptico a presença de congestão vascular, necrose e infiltrado inflamatório mononuclear quando comparados com o grupo controle. Em relação à atividade antioxidante não se observou diferença significativa no conteúdo de NPSH e na atividade da SOD em nenhum órgão analisado. Quanto aos parâmetros do estresse oxidativo, o teor de proteína carbonil não apresentou diferença significativa no cérebro e no fígado enquanto nos tecidos cardíaco e renal observou-se um decréscimo no grupo séptico em relação aos demais grupos. Não foi observada nenhuma diferença significativa nos níveis de TBARS no cérebro, no entanto, estes níveis estavam reduzidos no coração e no fígado e aumentados no tecido renal. Foi identificado como agente etiológico da sepse E. coli. Observou-se significativas alterações hematológicas no grupo séptico como: leucocitose e trombocitopenia. Com o presente trabalho conclui-se que, na sepse induzida, o aumento da hidrólise do ATP seja provavelmente consequência de uma resposta dinâmica para reduzir os níveis elevados de ATP resultantes da morte celular. Já a redução nos parâmetros de estresse oxidativo no coração e no fígado pode ter ocorrido devido a diferenças na indução da sepse pelo modelo CLP entre os diferentes grupos de pesquisa, adicionado à função dos neutrófilos alterados e também às características inerentes do tipo de micro-organismo patogênico.

Sepse

NTPDase

Estresse Oxidativo

Perfuração e ligação do ceco - CLP

Sepsis

NTPDase

Oxidative stress

Cecal ligation and puncture (CLP)

CNPQ::CIENCIAS BIOLOGICAS::FARMACOLOGIA

Efeito da infecção crônica por Toxoplasma gondii durante a sepse polimicrobiana experimental / Effect of chronic infection by Toxoplasma gondii during experimental polymicrobial sepsis.

Maria do Carmo Souza

15 April 2013

A maioria dos estudos da interação parasito-hospedeiro tem focado na interação de um único patógeno. Porém, o hospedeiro em um ambiente natural é comumente exposto a múltiplos patógenos sequencialmente ou mesmo simultaneamente. Diversos estudos têm utilizado o modelo de Ligadura e perfuração do Ceco (CLP) para estudar a sepse, mas nenhum deles apresentou modelo de coinfecção ou estudo avaliando o papel de infecções prévias no desfecho da sepse polimicrobiana experimental. Neste contexto, nossa hipótese é de que a infecção crônica por parasitos poderia alterar o curso da resposta durante a sepse polimicrobiana. Para testar essa hipótese, animais C57BL/6 ou BALB/c foram infectados com 5 ou 20 cistos da cepa ME 49 de Toxoplasma gondii e 40 dias após a infecção os animais foram induzidos à sepse polimicrobiana. Em nosso estudo, 100% dos animais cronicamente infectados por T. gondii morreram num período de 24 horas após CLP. O mesmo não foi observado quando animais foram infectados cronicamente com os parasitos Leishmania major e Trypanosoma cruzi ou com o fungo Paracoccidioides brasiliensis. Um dado interessante em nosso estudo foi que, nos animais previamente infectados com T. gondii, constatamos melhora na eliminação de bactérias liberadas pela CLP e aumento do recrutamento celular para o sítio da infecção. Apesar de esses animais apresentarem melhora na resposta contra as bactérias, verificamos a presença de lesão intestinal e maior infiltrado inflamatório neste órgão, associado a um aumento da produção de citocinas pró-inflamatórias (IFN-, TNF-, IL-6 e IL-1) e consequente aumento de óxido nítrico (NO), num período de 24 horas depois da CLP. Verificamos que as células TCD4+ e TCD8+ são responsáveis pela produção de IFN- e TNF- nesse modelo de coinfecção, e em modelo in vitro, que macrófagos podem ser responsáveis pela produção de IL-1 dependente de ativação do inflamassoma NLRP3/ASC/Caspase 1. Neste estudo, observamos que a rápida resposta contra a CLP acontece em função da presença de células de memória de padrão Th1, induzidas na infecção por T. gondii. Dessa forma, esse trabalho mostra que a infecção crônica por T. gondii agrava a sepse polimicrobiana subletal, por aumentar a produção de citocinas pró-inflamatórias IL-6, TNF- e IL-1, com a indução de hipotensão, predispondo ao choque séptico. / Most studies of parasite-host interaction have focused on the interaction of a single pathogen with cells or organism of the host. However, in a natural enviroment, the host is commonly exposed to multiple pathogens sequentially or even simultaneously. Several studies have used the model of cecal ligation and puncture (CLP) to study sepsis, but none of them evaluated the effect of the presence of previous infections to the outcome of polymicrobial sepsis. In this context, we hypothesized that chronic infection with Toxoplasma gondii could alter the course of host response against polymicrobial sepsis. To test this hypothesis, C57BL/6 or BALB/c mice were orally infected with 5 or 20 cysts of ME-49 strain of T. gondii and 40 days post infection, they were subjected to CLP. When mice were chronically infected with T. gondii, 100% of the animals died within 24 hours after CLP. The same phenomenons were not observed in animals previously infected with other parasites, such as Leishmania major and Trypanosoma cruzi or the fungus Paracoccidioides brasiliensis. Interestingly, when we evaluated the response against the CLP in animals that were infected with T. gondii, we found an improvement in the killing of bacteria released by CLP and an increase in recruitment of inflammatory cells to the site of infection. However, despite the fact that these animals have improved response against the bacterial infection, they presented intestinal damage and increased inflammatory infiltrate in this organ. The animals also had increased pro-inflammatory cytokines (IFN-, TNF-, IL-6 and IL-1), and nitric oxide (NO) detected within 24 hours after CLP. We also found that the TCD4+ and TCD8+ cells were responsible to produce IFN- and TNF-, and, using an in vitro model, we verified that macrophages are primarily responsible for the production of IL-1 in a pathway dependent on the activation of NLRP3/ASC/Caspase 1 inflamassoma. In this study, we found that early response against CLP happens due to the presence of mainly Th1 memory cells, induced by T. gondii infection. Finally, we found that chronic infection with T. gondii aggravates sublethal polymicrobial sepsis by increasing the cytokines IL-6, TNF- and IL-1, with induction of hypotension that predispose to septic shock.

Choque séptico

CLP

Imunidade da mucosa

Inflamação intestinal

Sepse

Toxoplasma gondii

CLP

Gut Inflammation

Mucosal Immunity

Sepsis

Septic shock.

Toxoplasma gondii

Insulina regula a translocação nuclear de NF-κB p65, inflamação e morte celular em modelo experimental de sepse em camundongos diabéticos / Insulin regulates NF-κB p65 nuclear translocation, inflammation and cell death in septic diabetic mice

Eduardo Lima Nolasco

19 May 2017

Sepse é uma resposta sistêmica e deletéria do indivíduo a uma infecção, sendo um importante problema de saúde pública. Pacientes diabéticos são bastante afetados representando cerca de 22% de todos os pacientes sépticos. A suscetibilidade para o desenvolvimento de sepse no diabetes, bem como a ação da insulina em modular alguns parâmetros imunológicos necessitam de maiores esclarecimentos O objetivo deste estudo foi avaliar os efeitos do tratamento com insulina em um modelo murino de diabetes e sepse. Camundongos C57BL/6 foram tornados diabéticos por administração de aloxana. Os seguintes parâmetros foram analisados vinte e quatro horas após a ligadura cecal e punção (CLP): (a) interleukine (IL)-6, IL-10, chemokine (C -C motif) ligand 2 (CCL2) e tumor necrosis fator (TNF ) -α no soro; (b) os níveis de IL-1β, IL-6, TNF-&#945, IL-10, chemokine (C -X-C motif) ligand (CXCL)-1 e CXCL2 no lavado peritoneal (LPe) e broncoalveolar (LBA), bem como nos rins e fígado; (c) contagens celulares totais e diferenciais em LPe e LBA; (d) capacidade endocítica de neutrófilos e produção de espécies reactivas de oxigénio (ERO); (e) níveis de apoptose e necrose no baço e níveis relativos de células CD4+ e CD8+; (f) resultados histopatológicos de pulmão, rim e fígado; e (g) níveis de translocação nuclear de NF-κB p65. Camundongos diabéticos-CLP exibiram concentrações séricas aumentadas de TNF-α, IL-6, CCL2, IL-1, IL-6, CXCL1, CXCL2 e IL-10 e contagens de neutrófilos em LPe. A capacidade endocítica dos neutrófilos e a produção de ERO apresentavam-se reduzidas em animais CLP-diabéticos e os níveis de IL-6, TNF-α, CXCL1 e CXCL2 em LBA e IL-1β, IL-6, CXCL1 e CXCL2 nos homogenados renais aumentaram diabéticos -CLP. O tratamento destes com insulina reduziu os nívies de citocinas séricas, aumentou a concentração de citocinas e a migração celular para o Lpe, restaurou a capacidade endocítica e a produção de ERO e reduziu a translocação nuclear NF-κB p65 no tecido renal. Estes dados sugerem que a insulina modula a produção/libertação de citocinas, regula a migração celular, a apoptose, a necrose e a translocação nuclear de NF-κB p65 na sepse induzida por CLP em camundongos diabéticos. / Sepsis is a systemic and harmful response of the individual to infection and is an important public health problem. Diabetic patients are greatly affected representing about 22% of all septic patients. The susceptibility to sepsis development in diabetic individuals and insulin action in modulating some immunological parameters require further clarification. The aim of this study was to evaluate the effects of insulin treatment in a mouse model of diabetes and sepsis. C57BL/6 mice were rendered diabetic by alloxan administration. The following parameters were analyzed twenty-four hours after a cecal ligation and puncture (CLP): (a) interleukin (IL)-6, IL-10, chemokine (C-C motif) ligand 2 (CCL2), and tumor necrosis factor (TNF) - α levels in serum; (b) IL-1β, IL-6, TNF-α, IL-10, chemokine (C-X-C motif) ligand (CXCL)1 and CXCL2 levels in peritoneal lavage (PeL) and bronchoalveolar lavage (BAL) fluid, as well as in the kidneys and liver; (c) total and differential cell counts in PeL and BAL fluid; (d) neutrophil endocytic capacity and reactive oxygen species (ROS) production; (e) spleen cell apoptosis and necrosis levels and relative CD4+ and CD8+ T cell levels; (f) lung, kidney, and liver histopathological results; and (g) NF-kB p65 nuclear translocation levels. Diabetic-CLP mice exhibited increased serum TNF-α, IL-6, CCL2, IL-1, IL-6, CXCL1, CXCL2 and IL-10 concentrations and neutrophil counts in PeL fluid. Neutrophil endocytic capacity and ROS production were decreased in diabetic-CLP mice, and IL-6, TNF- α, CXCL1 and CXCL2 leves in BAL fluid and IL-1β, IL-6, CXCL1 and CXCL2 levels in kidney homogenates were increased in diabetic-CLP mice. Treatment of these mice with insulin reduced serum cytokine levels increased cytokine and cell migration into PeL fluid, and restored neutrophil endocytic capacity and ROS production and NF-kB p65 nuclear translocation in the kidney. These data suggest that insulin modulates cytokine production/release, regulates cellular migration, apoptosis, necrosis and NF-kB p65 nuclear translocation in CLP-induced sepsis in diabetic mice.

Citocinas

CLP

Diabetes mellitus

Disfunção de órgãos

Lesão renal

Sepses

CLP

Cytokines

Diabetes mellitus

Kidney injury

Organ dysfunction

Sepsis

Étude de la variation de phase des fimbriae F1651, Pap et CS31A et de l'impact des régulateurs homologues de PapI

Lavoie, Rémi

04 1900

Les Escherichia coli pathogènes extra-intestinaux (ExPEC) sont responsables d’une grande variété de maladies. Plus particulièrement, certaines souches ExPEC, du sous-groupe d’E. coli uropathogènes, sont porteuses de fimbriae de type P. Cette famille d’adhésines est soumise à une régulation transcriptionnelle appelée variation de phase; un mécanisme du tout ou rien. Il s’agit d’une compétition entre deux protéines régulatrices : la Dam méthylase et la nucléoprotéine Lrp. Ce mécanisme est aussi soumis à l’influence des régulateurs locaux PapB et PapI, deux régulateurs essentiels. Afin d’étudier PapI et ses homologues ainsi que leur impact sur la variation de phase des fimbriae F1651, Pap et CS31A. Grâce à une fusion chromosomique entre la région régulatrice de clp et les gènes lacZYA, nous avons étudié l’effet, en trans, de PapI et FooI qui ont pu restaurer la variation de phase avec une forte tendance pour la phase OFF. Pour étudier l’action de ces protéines sur foo et pap, nous avons utilisé un système utilisant gfp comme gène rapporteur de l’activité des promoteurs des opérons pap et foo. Cela a permis d’observer la variation de phase au niveau cellulaire par cytométrie en flux et en temps réel par microscopie à fluorescence. Ces expériences ont confirmé que la population de cellules F1651 positives a un phénotype d’expression de F1651 partielle alors que les cellules Pap sont en majorité en phase OFF. PapI et FooI n’ont pas la même influence sur la variation de phase, puisque FooI favorise une plus grande fréquence de variation de phase. / Escherichia coli extra-intestinal pathogenic (ExPEC) are responsible for a wide variety of diseases. Particularly ExPEC strains from the subset called uropathogenic E.coli (UPEC) are carrying fimbriae type P. This adhesin family is subject to transcriptional regulation called phase variation, an all or nothing mechanism. It is a competition between two regulatory proteins: the Dam methylase and the nucleoprotein Lrp. This mechanism is also under the influence of the local regulators PapB and PapI. These two regulators are essential to the phase variation. We therefore sought to investigate PapI and its homologs and their impact on the phase variation of fimbriae F1651, Pap, and CS31A. By means of a chromosomal fusion between the regulatory region of clp gene and lacZYA, we studied the effect in trans of PapI and FooI which could restore the phase variation with a strong tendency to phase OFF. To study the action of PapI and FooI, we used a system with gfp as a reporter gene in operons pap and foo. This allowed the observation of the phase variation at the cellular level by flow cytometry and real-time fluorescence microscopy. These experiments confirmed that the population of F165 positive cells have a partial expression state whereas Pap cells mostly have an OFF expression state. We also confirmed that FooI and PapI do not have the same influence on phase variation and that FooI promotes greater frequency of phase variation.

Escherichia coli

Virulence

Fimbriae

Variation de phase

Lrp

Pap

Foo

Clp

Adhésine

Escherichia coli

Virulence

Fimbriae

Phase variation

Lrp

Pap

Foo

Clp

Adhesin

Impact de HOXB4 sur les cellules B

Matte-Garneau, Renée-Maude

09 1900

La greffe de cellules souches hématopoïétiques autologue est une thérapie de plus en plus utilisée. Cependant, les traitements de chimiothérapie ou de radiothérapie intensifs peuvent affecter les cellules souches et diminuer le nombre de ces cellules pouvant être mobilisées à des fins de transplantation. Il serait donc très utile de pouvoir expandre ces cellules souches afin de s’assurer qu’elles soient en quantité suffisante pour procéder à la greffe. Or, il a été démontré que la protéine HOXB4 a la capacité d’expandre les cellules souches hématopoïétiques humaines et murines. Lors d’une greffe autologue, la moelle osseuse est cependant colonisée par des cellules malignes. Notre objectif était donc de s’assurer que la protéine HOXB4 expand les cellules souches hématopoïétiques normales mais n’expand pas les cellules « souches » leucémiques. De plus, comme des expériences précédentes ont démontré que chez des souris transplantées avec des cellules souches surexprimant HOXB4, la reconstitution du système hématopoïétique pouvait favoriser les cellules myéloïdes aux dépends des cellules lymphoïdes, nous avons aussi voulu déterminer l’impact de HOXB4 sur la différenciation des cellules progénitrices lymphoïdes normales. Pour ce faire, nous avons exposé des cellules humaines et murines à la protéine HOXB4 afin de comparer la prolifération des cellules B malignes à celle des cellules B normales. De plus, nous avons évalué l’impact de HOXB4 sur les cellules B à leurs différents stades de différenciation. Nos résultats démontrent que HOXB4 ne favorise pas l’expansion des cellules leucémiques. De plus, nous avons observé que les cellules lymphoïdes surexprimant la protéine HOXB4 ont un ralentissement dans leur processus de différenciation. Aussi, la surexpression de HOXB4 entraîne une diminution de la fréquence et du nombre de progéniteurs lymphoïdes normaux. Ces résultats démontrent donc que la protéine HOXB4 ne produit pas d’expansion des cellules malignes. De plus, elle confère un désavantage prolifératif aux cellules lymphoïdes. / Transplantation of autologous hematopoietic stem cell is increasingly used. However, intensive chemotherapy or radiation therapy protocols can affect stem cells and decrease the number of these cells that can be mobilized for stem cell transplantation. There is therefore a need to create protocols for the expansion of these stem cells to increase their numbers sufficiently to proceed to transplantation. It has been demonstrated that the protein HOXB4 has the ability to expand human and murine hematopoietic stem cells. In the context of autologous transplantation, the bone marrow is often colonized by malignant cells. Our objective was to ensure that the protein HOXB4 expands normal hematopoietic stem cells but not leukemia "stem" cells. In addition, since previous experiments have shown that in mice transplanted with stem cells overexpressing HOXB4, hematopoietic reconstitution could favour myeloid cells over lymphoid cells, we determined the impact of HOXB4 on the differentiation of normal lymphoid progenitor cells. Toward this goal, we have exposed human and mouse leukemia cells to HOXB4 and compared the proliferation of malignant versus normal B cells. In addition, we have evaluated the impact of HOXB4 on the different stages of B cell differentiation. Our results show that HOXB4 does not favour leukemia cell expansion. In addition, we observed that lymphoid cells overexpressing HOXB4 are slowed in their differentiation process. Also, HOXB4 overexpression decreases the frequency and number of normal lymphoid progenitors. These results demonstrate that HOXB4 protein does not lead to malignant stem cell expansion. In addition, the HOXB4 protein confers a proliferative disadvantage to lymphoid cells.

CSH

Expansion

Cellules lymphoïdes B

CLP

HOXB4

Cellules leucémiques

HSC

Expansion

B cells

CLP

HOXB4

Leukemic cells

Untersuchungen zum stickstoffinduzierten Phycobilisomenabbau - NblA, ein kleines Protein mit großer Wirkung

Baier, Antje

16 December 2013

Der Abbau der PBS unter Stickstoffmangel ist in Cyanobakterien ein ubiquitärer Mechanismus. Essenziell für den Abbau ist das Protein NblA. Das in Nostoc sp. PCC 7120 gut untersuchte ~7 kDa große Protein interagiert als Homodimer mit den PBS und dem Chaperon ClpC. Soweit bekannt kodieren alle Cyanobakterien ein essenzielles NblA-Protein. Der Modellorganismus Synechocystis sp. PCC 6803, dagegen kodiert mit NblA1 und NblA2 sogar zwei für den PBS-Abbau entscheidende Proteine. In dieser Arbeit konnte erstmalig durch in vitro und in vivo Interaktionsstudien mithilfe von pull down-Versuchen und FRET gezeigt werden, dass NblA1 und NblA2 als biologisch aktive Form ein Heterodimer bilden. In vitro-pulldown-Versuche zeigten für Synechocystis eine Interaktion des Heterodimers mit den PBS und ClpC. Durch die Ausbildung dieses ternären Komplexes markiert NblA1/NblA2 die PBS für den Abbau durch eine Clp-Protease mit ClpC als Chaperonpartner. In Photobionten gibt es eine Reihe von clp-Genen, so besitzen Cyanobakterien vier proteolytische clp Untereinheiten. Aus diesen bilden sich gemischte Heptamere aus je zwei Clp-Untereinheiten. Zwei lösliche, im Cytoplasma vorkommende Proteasen wurden bis jetzt zweifelsfrei identifiziert, eine dritte, an der Thylakoidmembran assoziierte Protease wird außerdem vermutet. Diese putative Protease, vermutlich aus dem Chaperon ClpC und den proteolytischen Untereinheiten ClpP1 und ClpR aufgebaut, wurde heterolog exprimiert. Mittels Koreinigung konnte ein funktioneller proteolytischer Kern gereinigt werden, der zusammen mit dem Chaperon ClpC eine aktive Clp-Protease bildet. Durch Größenausschlusschromatografie und Untersuchungen zur Proteaseaktivität konnte diese dann erstmalig charakterisiert werden. Des Weiteren zeigten in vitro-Degradationsversuche mit der aktiven Protease zweifelsfrei, dass das NblA1/NblA2-Heterodimer durch ClpC-ClpP1/ClpR abgebaut wird. Der Abbau von NblA1/NblA2 kann demnach auch ohne ein Substrat durch die Protease erfolgen. / The degradation of pycobilisomes under nitrogen deficiency, which is visible as a color change from blue green to yellow green, is an ubiquitary mechanism. Essential for the degradation is the small NblA protein. The well characterized NblA protein from Nostoc sp. PCC 7120 builds as biological active form a homodimer and interacts with the phycobilisomes and ClpC. However, the model organism Synechocystis sp. PCC 6803 possess two nblA genes, nblA1 and nblA2, which are both essential for phycobilisome degradation. In this work it could be shown by interaction studies and Förster resonance energy transfer that NblA1 and NblA2 builds as biological active form a heterodimer. Furthermore it could be shown that the NblA proteins form a ternary complex with ClpC (the HSP100 chaperone partner of Clp proteases) and phycobiliproteins in vitro. This complex is susceptible to ATP-dependent degradation by a Clp protease. Clp proteases of Cyanobacteria consist, besides the chaperones ClpC and ClpX of three different proteolytic subunits (ClpP1, 2, 3) and the ClpP variant ClpR which lacks the catalytic triad typical of Serine-type proteases. In Synechococcus 7942 two Clp proteases could be identified by gel filtration and immunoblot analyses, which provided evidence that each protease consists of a unique proteolytic core comprised of two separate Clp subunits, one core consisting of ClpP1 and ClpP2, and the other of ClpP3 and ClpR, in which subunits ClpP1/ClpP2 interact with ClpX and the ClpP3/ClpR protease with ClpC. In addition to these two soluble proteases, a third, membrane associated proteolytic complex is assumed, consisting of ClpP1 and ClpR. In Synechocystis 6803, homologs of the Clp machinery could be found by BLAST analyzes. This putative ClpP1/ClpR protease could be characterized in vitro by size-exclusion chromatography and degradation assays. Furthermore it could be shown a degradation of the NblA1/NblA2 heterodimer by the protease.

NblA

Synechocystis

Phycobilisomen

Clp Protease

Stickstoffmangel

NblA

Synechocystis

phycobilisomen

Clp protease

nitrogen starvation

570 Biowissenschaften, Biologie

32 Biologie

WN 8120

ddc:570

Impact de HOXB4 sur les cellules B

Matte-Garneau, Renée-Maude

09 1900

La greffe de cellules souches hématopoïétiques autologue est une thérapie de plus en plus utilisée. Cependant, les traitements de chimiothérapie ou de radiothérapie intensifs peuvent affecter les cellules souches et diminuer le nombre de ces cellules pouvant être mobilisées à des fins de transplantation. Il serait donc très utile de pouvoir expandre ces cellules souches afin de s’assurer qu’elles soient en quantité suffisante pour procéder à la greffe. Or, il a été démontré que la protéine HOXB4 a la capacité d’expandre les cellules souches hématopoïétiques humaines et murines. Lors d’une greffe autologue, la moelle osseuse est cependant colonisée par des cellules malignes. Notre objectif était donc de s’assurer que la protéine HOXB4 expand les cellules souches hématopoïétiques normales mais n’expand pas les cellules « souches » leucémiques. De plus, comme des expériences précédentes ont démontré que chez des souris transplantées avec des cellules souches surexprimant HOXB4, la reconstitution du système hématopoïétique pouvait favoriser les cellules myéloïdes aux dépends des cellules lymphoïdes, nous avons aussi voulu déterminer l’impact de HOXB4 sur la différenciation des cellules progénitrices lymphoïdes normales. Pour ce faire, nous avons exposé des cellules humaines et murines à la protéine HOXB4 afin de comparer la prolifération des cellules B malignes à celle des cellules B normales. De plus, nous avons évalué l’impact de HOXB4 sur les cellules B à leurs différents stades de différenciation. Nos résultats démontrent que HOXB4 ne favorise pas l’expansion des cellules leucémiques. De plus, nous avons observé que les cellules lymphoïdes surexprimant la protéine HOXB4 ont un ralentissement dans leur processus de différenciation. Aussi, la surexpression de HOXB4 entraîne une diminution de la fréquence et du nombre de progéniteurs lymphoïdes normaux. Ces résultats démontrent donc que la protéine HOXB4 ne produit pas d’expansion des cellules malignes. De plus, elle confère un désavantage prolifératif aux cellules lymphoïdes. / Transplantation of autologous hematopoietic stem cell is increasingly used. However, intensive chemotherapy or radiation therapy protocols can affect stem cells and decrease the number of these cells that can be mobilized for stem cell transplantation. There is therefore a need to create protocols for the expansion of these stem cells to increase their numbers sufficiently to proceed to transplantation. It has been demonstrated that the protein HOXB4 has the ability to expand human and murine hematopoietic stem cells. In the context of autologous transplantation, the bone marrow is often colonized by malignant cells. Our objective was to ensure that the protein HOXB4 expands normal hematopoietic stem cells but not leukemia "stem" cells. In addition, since previous experiments have shown that in mice transplanted with stem cells overexpressing HOXB4, hematopoietic reconstitution could favour myeloid cells over lymphoid cells, we determined the impact of HOXB4 on the differentiation of normal lymphoid progenitor cells. Toward this goal, we have exposed human and mouse leukemia cells to HOXB4 and compared the proliferation of malignant versus normal B cells. In addition, we have evaluated the impact of HOXB4 on the different stages of B cell differentiation. Our results show that HOXB4 does not favour leukemia cell expansion. In addition, we observed that lymphoid cells overexpressing HOXB4 are slowed in their differentiation process. Also, HOXB4 overexpression decreases the frequency and number of normal lymphoid progenitors. These results demonstrate that HOXB4 protein does not lead to malignant stem cell expansion. In addition, the HOXB4 protein confers a proliferative disadvantage to lymphoid cells.

CSH

Expansion

Cellules lymphoïdes B

CLP

HOXB4

Cellules leucémiques

HSC

Expansion

B cells

CLP

HOXB4

Leukemic cells