Protection Against Lipopolysacharide-Induced Myocardial Dysfunction in Mice by Cardiac-Specific Expression of Soluble Fas

Niu, Jianli, Azfer, Asim, Kolattukudy, Pappachan E.

01 January 2008

The mechanisms responsible for myocardial dysfunction in the setting of sepsis remain undefined. Fas ligation with its cognate ligand (FasL) induces apoptosis and activates cellular inflammatory responses associated with tissue injury. We determined whether interruption of Fas/FasL interaction by cardiac-specific expression of soluble Fas (sFas), a competitive inhibitor of FasL, would improve myocardial dysfunction and inflammation in a lipopolysacharide (LPS)-induced mouse model of sepsis. Wild-type (WT) and sFas transgenic mice were injected intraperitoneally with 10 mg/kg LPS or with an equivalent volume of saline. At 18 h after LPS administration, echocardiographic evaluation revealed a significant decrease in left ventricular fractional shortening in the WT mice, whereas the fractional shortening was preserved in the sFas mice. Activation of nuclear factor-kappa B (NF-κB) and the increase in the transcript levels of proinflammatory cytokines, tumor necrosis factor (TNF)-α, interleukin (IL)-1β, and IL-6 resulting from LPS treatment were attenuated in the myocardium of sFas mice. sFas expression also inhibited LPS-induced upregulation of Toll-like receptor 4 (TLR-4) and inducible nitric oxide synthase (iNOS), and formation of peroxynitrite in the myocardium. LPS-induced increase in caspase-3/7 activity and apoptotic cell death were suppressed in sFas mice compared with WT mice. LPS-induced lung injury and increase in lung water content were also significantly reduced in sFas mice. These data indicate that neutralization of FasL by expression of sFas significantly preserves cardiac function and reduces inflammatory responses in the heart, suggesting that Fas/FasL signaling pathway is important in mediating the deleterious effects of LPS on myocardial function.

Fas/FasL signaling

lipopolysacharide

myocardial dysfunction

sepsis

The molecular mechanisms involve in proliferation and metastasis of human leukemic U937 and K562 cells

Liu, Wen-Hsin

16 June 2011

Leukemia is a hematological neoplasm with abnormal genetic mutation or chromosomal translocation in the myeloblast or lymphoblast, and characterized by accumulation of immature cells and malfunction of lymphocytes and myeloid-derived cells. The prognosis of treatment depends on genetic mutation, chromosomal aberration, disease progression and age of patients. Currently, bone marrow transplantation is a useful therapeutic strategy, but the success in therapy is limited by the bone marrow of donors and life-threatening events such as immune repulsion. Although chemotherapy improves leukemia treatment, long-term chemotherapy usually leads to the production of drug-resistant cancer cells. Thus, the development of new modality in overcoming drug-resistant should be beneficial for in leukemia therapy. In this thesis, Naja nigricollis toxin £^, piceatannol, caffeine, and Bungarus multicinctus protease inhibitor-like protein 1 (PILP-1) are employed to investigate the molecular mechanisms in regulating apoptosis and invasion of leukemic cell lines K562 and U937. Hopefully, the signaling pathways elicited by these treatments may be aid in identifying new targets in treating leukemia. Toxin £^ inducing cell death is found to evoke p38 MAPK-mediated Bcl-2 down-regulation, which facilitates mitochondria dysfunction, ROS generation and cytiochrome c release. Finally, activation of caspases leads to apoptotic death of toxin £^-treated cells. Piceatannol elicits Ca2+/p38£\ MAPK- mediated c-Jun and ATF-2 phosphorylation, leading to up-regulation of Fas/FasL protein expression and autocrine Fas-mediated death pathway activation. Caffeine treatment down-regulates MMP-2/-9 down-regulation via Ca2+/ROS-mediated inactivation of ERK/c-Fos and activation of p38 MAPK/c-Jun pathway. Consequently, caffeine treatment suppresses invasion of leukemia cells. PILP-1-induced ADAM17 down-regulation suppresses Lyn-mediated Akt phosphorylation, resulting in death of PILP-1-treated leukemia cells. Taken together, the results of the present study elucidate the signaling pathways responsible for apoptosis and invasion of leukemia cells. Moreover, these findings might suggest new targets in developing therapeutic strategy in treating leukemia.

Leukemia

MAPKs

Bcl-2

Fas/FasL

MMP-2/-9

ADAM17

Influência da ativação de macrófagos via receptores do tipo Toll (TLRs) na produção de fatores moduladores da sobrevivência de linfócitos T. / Effect of soluble factors produced by TLR-activated macrophages on T lymphocytes survival.

Campopiano, Julia Cortina

11 June 2010

A interação entre a imunidade inata e adaptativa acontece durante diversas fases da resposta imune. Os Toll-like receptors (TLRs) tem importante papel na ativação de macrófagos e portanto, no conjunto de moléculas secretadas por estas células. Pouco se sabe sobre o papel destas substâncias no processo de contração da população de células T ativadas (Activation-induced cell death - AICD). Portanto, o objetivo do presente trabalho foi avaliar se macrófagos estimulados com diferentes agonistas de TLRs poderiam produzir fatores solúveis com capacidade modulatória da morte por AICD. Primeiramente, demonstramos que tanto a linhagem macrofágica J774, quanto os macrófagos derivados de medula óssea (BMDMs) expressam todos os TLRs, com excessão do TLR11. Comprovamos que estas proteínas são funcionais, uma vez que o estímulo com agonistas de TLRs leva à ativação de NF-<font face=\"Symbol\">&#954B nestes macrófagos. Finalmente, mostramos que os sobrenadantes gerados pelos macrófagos são capazes de proteger as células DO11.10 da AICD, via a regulação negativa de FasL, parcialmente mediada por PGE2. / The interaction between innate and adaptative immunity occurs in several phases of the immune response. The Toll-like receptors (TLRs) have an important role in the activation of macrophages directly acting on the molecules secreted by these cells. Little is known about the role of these secreted molecules on the survival control of activated T lymphocytes (Activation-induced cell death - AICD). Therefore, the objective of the present work was to evaluate the effects of soluble factors produced by macrophages activated with several TLRs agonists, on the survival of T lymphocytes. First we sought the expression of TRLs on both bone marrow-derived and J774 macrophage cell line and we could see that both cells express all TLRs, except for TLR 11. The stimulation of both cells with TLRs agonists leads to the expression of NF-<font face=\"Symbol\">&#954B and the production of soluble factors that are able to protect DO11.10 T lymphocyte cell line from AICD, via down regulation of FasL partially mediated by PGE2.

Toll-like receptors (TLRs)

Apoptose

Apoptosis

Fas/FasL

Fas/FasL

Linfócitos T

Macrófagos

Macrophages

PAMPs

PAMPs

Receptores do tipo Toll (TLRs)

T lymphocyte

Influência da ativação de macrófagos via receptores do tipo Toll (TLRs) na produção de fatores moduladores da sobrevivência de linfócitos T. / Effect of soluble factors produced by TLR-activated macrophages on T lymphocytes survival.

Julia Cortina Campopiano

11 June 2010

A interação entre a imunidade inata e adaptativa acontece durante diversas fases da resposta imune. Os Toll-like receptors (TLRs) tem importante papel na ativação de macrófagos e portanto, no conjunto de moléculas secretadas por estas células. Pouco se sabe sobre o papel destas substâncias no processo de contração da população de células T ativadas (Activation-induced cell death - AICD). Portanto, o objetivo do presente trabalho foi avaliar se macrófagos estimulados com diferentes agonistas de TLRs poderiam produzir fatores solúveis com capacidade modulatória da morte por AICD. Primeiramente, demonstramos que tanto a linhagem macrofágica J774, quanto os macrófagos derivados de medula óssea (BMDMs) expressam todos os TLRs, com excessão do TLR11. Comprovamos que estas proteínas são funcionais, uma vez que o estímulo com agonistas de TLRs leva à ativação de NF-<font face=\"Symbol\">&#954B nestes macrófagos. Finalmente, mostramos que os sobrenadantes gerados pelos macrófagos são capazes de proteger as células DO11.10 da AICD, via a regulação negativa de FasL, parcialmente mediada por PGE2. / The interaction between innate and adaptative immunity occurs in several phases of the immune response. The Toll-like receptors (TLRs) have an important role in the activation of macrophages directly acting on the molecules secreted by these cells. Little is known about the role of these secreted molecules on the survival control of activated T lymphocytes (Activation-induced cell death - AICD). Therefore, the objective of the present work was to evaluate the effects of soluble factors produced by macrophages activated with several TLRs agonists, on the survival of T lymphocytes. First we sought the expression of TRLs on both bone marrow-derived and J774 macrophage cell line and we could see that both cells express all TLRs, except for TLR 11. The stimulation of both cells with TLRs agonists leads to the expression of NF-<font face=\"Symbol\">&#954B and the production of soluble factors that are able to protect DO11.10 T lymphocyte cell line from AICD, via down regulation of FasL partially mediated by PGE2.

Apoptose

Fas/FasL

Linfócitos T

Macrófagos

PAMPs

Receptores do tipo Toll (TLRs)

Toll-like receptors (TLRs)

Apoptosis

Fas/FasL

Macrophages

PAMPs

T lymphocyte

Novo papel da galectina-1 como molécula efetora de células citotóxicas. / New role for galectin-1 as effector molecule of cytotoxic cells.

Machado, Tiago Clemente

18 March 2014

A exocitose de grânulos secretórios é o principal mecanismo efetor de células TCD8+. No entanto, pouco se sabe sobre a composição dos grânulos líticos dessas células. Resultados prévios do nosso grupo identificaram algumas dezenas de novas proteínas desses grânulos. Dentre elas foi identificada Gal-1. A literatura relata que Gal-1 age por via exógena através de sua secreção por via não convencional. Dados iniciais do nosso grupo apontam um novo cenário para esta proteína no qual ela está presente em grânulos citotóxicos. Através das técnicas de microscopia eletrônica e confocal e de ensaios de citotoxicidade, nossos resultados sugerem que Gal-1 participa do papel citotóxico das CTLs modulando a via dos receptores de morte FAS-FASL. Nós também mostramos que Gal-1 interfere com o tempo de contato entre APCs e linfócitos TCD8+, com a ativação dessas células e com o controle da proliferação dos linfócitos. Nossos resultados apontam um novo cenário para Gal-1, no qual ela está presente em grânulos líticos das CTLs e está relacionada a resposta efetora dessas células. / Exocytosis of secretory granules is the main effector mechanism of CD8+ T cells. In particular, little is known about CTLs lytic granules composition. Previous results from our group identified a few dozens of new proteins associated with these granules. Among them, we identified galectin-1. Literature reports the extracellular action of Gal-1. Initial data from our group suggested a new scenario for this protein, since Gal-1 was found inside cytotoxic granules. Here, we show by transmission electron and confocal laser scanning microscopy and cytotoxicity assays that Gal-1 has a role on CTL killing probably mediating the FAS-FASL pathway. We also show that Gal-1 is regulates the time of contact between APCs and TCD8+ lymphocytes, the activation of APCs and the proliferation of CD8 T cells. Taken together, our findings suggest a new scenario, in which Gal-1 is present in CTL granules and participates in cytotoxic effector response.

CD8+ T lymphocytes

Cell proliferation

Cellular cytotoxicity

Célula NK

Células citotóxicas

Citotoxicidade celular

Cytotoxic cells

FAS-FASL

FAS-FASL

Galectin-1

Galectina-1

Linfócito TCD8+

Lisossomos secretórios

NK cell

Proliferação celular

Secretory lysosomes

Novo papel da galectina-1 como molécula efetora de células citotóxicas. / New role for galectin-1 as effector molecule of cytotoxic cells.

Tiago Clemente Machado

18 March 2014

A exocitose de grânulos secretórios é o principal mecanismo efetor de células TCD8+. No entanto, pouco se sabe sobre a composição dos grânulos líticos dessas células. Resultados prévios do nosso grupo identificaram algumas dezenas de novas proteínas desses grânulos. Dentre elas foi identificada Gal-1. A literatura relata que Gal-1 age por via exógena através de sua secreção por via não convencional. Dados iniciais do nosso grupo apontam um novo cenário para esta proteína no qual ela está presente em grânulos citotóxicos. Através das técnicas de microscopia eletrônica e confocal e de ensaios de citotoxicidade, nossos resultados sugerem que Gal-1 participa do papel citotóxico das CTLs modulando a via dos receptores de morte FAS-FASL. Nós também mostramos que Gal-1 interfere com o tempo de contato entre APCs e linfócitos TCD8+, com a ativação dessas células e com o controle da proliferação dos linfócitos. Nossos resultados apontam um novo cenário para Gal-1, no qual ela está presente em grânulos líticos das CTLs e está relacionada a resposta efetora dessas células. / Exocytosis of secretory granules is the main effector mechanism of CD8+ T cells. In particular, little is known about CTLs lytic granules composition. Previous results from our group identified a few dozens of new proteins associated with these granules. Among them, we identified galectin-1. Literature reports the extracellular action of Gal-1. Initial data from our group suggested a new scenario for this protein, since Gal-1 was found inside cytotoxic granules. Here, we show by transmission electron and confocal laser scanning microscopy and cytotoxicity assays that Gal-1 has a role on CTL killing probably mediating the FAS-FASL pathway. We also show that Gal-1 is regulates the time of contact between APCs and TCD8+ lymphocytes, the activation of APCs and the proliferation of CD8 T cells. Taken together, our findings suggest a new scenario, in which Gal-1 is present in CTL granules and participates in cytotoxic effector response.

Célula NK

Células citotóxicas

Citotoxicidade celular

FAS-FASL

Galectina-1

Linfócito TCD8+

Lisossomos secretórios

Proliferação celular

CD8+ T lymphocytes

Cell proliferation

Cellular cytotoxicity

Cytotoxic cells

FAS-FASL

Galectin-1

NK cell

Secretory lysosomes