一氧化碳抑制Fas激活抗体诱导内皮细胞凋亡。

IF 3 Q2 MEDICINE, RESEARCH & EXPERIMENTAL Medical Gas Research Pub Date : 2011-05-18 DOI:10.1186/2045-9912-1-8
Xue Wang, Yong Wang, Seon-Jin Lee, Hong Pyo Kim, Augustine Mk Choi, Stefan W Ryter
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引用次数: 20

摘要

背景:当死亡配体(如Fas配体)与其细胞表面受体相互作用时,外源性凋亡途径启动。Fas/CD95),形成死亡诱导信号复合体(DISC)。fas依赖性凋亡通路与几种肺或血管损伤模型有关。一氧化碳是血红素加氧酶-1的酶产物,在体内和体外均具有低浓度的抗凋亡作用。方法:用小鼠肺内皮细胞(MLEC)检测一氧化碳对Fas/ cd95活化抗体(Jo2)诱导的细胞凋亡的抑制作用。将一氧化碳应用于体外细胞培养。凋亡相关蛋白和信号中间体的表达和/或激活使用Western Immunoblot和共免疫沉淀法测定。乳酸脱氢酶(LDH)释放法监测细胞死亡。采用学生t检验,P < 0.05为差异有统计学意义。结果:用fas活化抗体(Jo2)处理MLEC可诱导与DISC形成相关的细胞死亡,并激活半胱天蛋白酶(-8、-9和-3)以及促凋亡的Bcl-2家族蛋白Bax。MLEC暴露于一氧化碳中可以抑制jo2诱导的细胞死亡,这与抑制DISC的形成、caspase -8、-9和-3的裂解以及Bax的激活有关。一氧化碳抑制fas相关的含死亡结构域蛋白的磷酸化,以及它与DISC的关联。此外,一氧化碳诱导抗凋亡蛋白FLIP的表达,并增加其与DISC的关联。对Fas介导的MLEC细胞凋亡的共依赖细胞保护部分依赖于erk1 /2依赖性信号的激活。结论:一氧化碳已被认为是肺部和其他疾病的潜在治疗方法,部分基于其对内皮细胞的抗凋亡作用。在体外,一氧化碳可抑制内皮细胞Fas/caspase-8和Fas激活抗体诱导的bax依赖性凋亡信号通路。阻断fas依赖性凋亡通路的策略可能有助于开发肺或血管疾病的治疗方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Carbon monoxide inhibits Fas activating antibody-induced apoptosis in endothelial cells.

Background: The extrinsic apoptotic pathway initiates when a death ligand, such as the Fas ligand, interacts with its cell surface receptor (ie., Fas/CD95), forming a death-inducing signaling complex (DISC). The Fas-dependent apoptotic pathway has been implicated in several models of lung or vascular injury. Carbon monoxide, an enzymatic product of heme oxygenase-1, exerts antiapoptotic effects at low concentration in vitro and in vivo.

Methods: Using mouse lung endothelial cells (MLEC), we examined the antiapoptotic potential of carbon monoxide against apoptosis induced by the Fas/CD95-activating antibody (Jo2). Carbon monoxide was applied to cell cultures in vitro. The expression and/or activation of apoptosis-related proteins and signaling intermediates were determined using Western Immunoblot and co-immunoprecipitation assays. Cell death was monitored by lactate dehydrogenase (LDH) release assays. Statistical significance was determined by student T-test and a value of P < 0.05 was considered significant.

Results: Treatment of MLEC with Fas-activating antibody (Jo2) induced cell death associated with the formation of the DISC, and activation of caspases (-8, -9, and -3), as well as the pro-apoptotic Bcl-2 family protein Bax. Exposure of MLEC to carbon monoxide inhibited Jo2-induced cell death, which correlated with the inhibition of DISC formation, cleavage of caspases-8, -9, and -3, and Bax activation. Carbon monoxide inhibited the phosphorylation of the Fas-associated death domain-containing protein, as well as its association with the DISC. Furthermore, carbon monoxide induced the expression of the antiapoptotic protein FLIP and increased its association with the DISC.CO-dependent cytoprotection against Fas mediated apoptosis in MLEC depended in part on activation of ERK1/2-dependent signaling.

Conclusions: Carbon monoxide has been proposed as a potential therapy for lung and other diseases based in part on its antiapoptotic effects in endothelial cells. In vitro, carbon monoxide may inhibit both Fas/caspase-8 and Bax-dependent apoptotic signaling pathways induced by Fas-activating antibody in endothelial cells. Strategies to block Fas-dependent apoptotic pathways may be useful in development of therapies for lung or vascular disorders.

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来源期刊
Medical Gas Research
Medical Gas Research MEDICINE, RESEARCH & EXPERIMENTAL-
CiteScore
5.10
自引率
13.80%
发文量
35
期刊介绍: Medical Gas Research is an open access journal which publishes basic, translational, and clinical research focusing on the neurobiology as well as multidisciplinary aspects of medical gas research and their applications to related disorders. The journal covers all areas of medical gas research, but also has several special sections. Authors can submit directly to these sections, whose peer-review process is overseen by our distinguished Section Editors: Inert gases - Edited by Xuejun Sun and Mark Coburn, Gasotransmitters - Edited by Atsunori Nakao and John Calvert, Oxygen and diving medicine - Edited by Daniel Rossignol and Ke Jian Liu, Anesthetic gases - Edited by Richard Applegate and Zhongcong Xie, Medical gas in other fields of biology - Edited by John Zhang. Medical gas is a large family including oxygen, hydrogen, carbon monoxide, carbon dioxide, nitrogen, xenon, hydrogen sulfide, nitrous oxide, carbon disulfide, argon, helium and other noble gases. These medical gases are used in multiple fields of clinical practice and basic science research including anesthesiology, hyperbaric oxygen medicine, diving medicine, internal medicine, emergency medicine, surgery, and many basic sciences disciplines such as physiology, pharmacology, biochemistry, microbiology and neurosciences. Due to the unique nature of medical gas practice, Medical Gas Research will serve as an information platform for educational and technological advances in the field of medical gas.
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