Thomas C. Chin, Sigurd M. Wilbanks, Elizabeth C. Ledgerwood
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引用次数: 0
摘要
人类细胞色素 c(CYCS)编码基因的变异会导致轻度常染色体显性血小板减少症。尽管小鼠和人类细胞色素 c 的序列高度一致,但在研究的唯一突变体(G41S)中,这种表型并没有在小鼠中重现。G41S 突变对细胞色素 c 体外活性的影响在人和小鼠之间也不一致。过氧化物酶活性在小鼠和人的 G41S 突变体中都有所增加,而细胞凋亡小体的激活在人的 G41S 细胞色素 c 中有所增加,但在小鼠的 G41S 细胞色素 c 中却有所减少。G41S 突变增加了人细胞色素 c 的固有熵和主链流动性,但没有增加小鼠细胞色素 c 的固有熵和主链流动性。这些数据表明,细胞色素 c 与 Apaf-1 结合以触发凋亡小体的形成,而不是细胞色素 c 的过氧化物酶活性,会因原生蛋白质构象的流动性增加而增强。
Altered conformational dynamics contribute to species-specific effects of cytochrome c mutations on caspase activation
Variants in the gene encoding human cytochrome c (CYCS) cause mild autosomal dominant thrombocytopenia. Despite high sequence conservation between mouse and human cytochrome c, this phenotype is not recapitulated in mice for the sole mutant (G41S) that has been investigated. The effect of the G41S mutation on the in vitro activities of cytochrome c is also not conserved between human and mouse. Peroxidase activity is increased in both mouse and human G41S variants, whereas apoptosome activation is increased for human G41S cytochrome c but decreased for mouse G41S cytochrome c. These apoptotic activities of cytochrome c are regulated at least in part by conformational dynamics of the main chain. Here we use computational and in vitro approaches to understand why the impact of the G41S mutation differs between mouse and human cytochromes c. The G41S mutation increases the inherent entropy and main chain mobility of human but not mouse cytochrome c. Exclusively in human G41S cytochrome c this is accompanied by a decrease in occupancy of H-bonds between protein and heme during simulations. These data demonstrate that binding of cytochrome c to Apaf-1 to trigger apoptosome formation, but not the peroxidase activity of cytochrome c, is enhanced by increased mobility of the native protein conformation.
期刊介绍:
Biological inorganic chemistry is a growing field of science that embraces the principles of biology and inorganic chemistry and impacts other fields ranging from medicine to the environment. JBIC (Journal of Biological Inorganic Chemistry) seeks to promote this field internationally. The Journal is primarily concerned with advances in understanding the role of metal ions within a biological matrix—be it a protein, DNA/RNA, or a cell, as well as appropriate model studies. Manuscripts describing high-quality original research on the above topics in English are invited for submission to this Journal. The Journal publishes original articles, minireviews, and commentaries on debated issues.
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