通过硫化氢氧化途径进行信号传导的活性硫物质的生物合成。
Biogenesis of reactive sulfur species for signaling by hydrogen sulfide oxidation pathways.
作者信息
Mishanina Tatiana V, Libiad Marouane, Banerjee Ruma
机构信息
Department of Biological Chemistry, University of Michigan Medical School, Ann Arbor, Michigan, USA..
出版信息
Nat Chem Biol. 2015 Jul;11(7):457-64. doi: 10.1038/nchembio.1834. Epub 2015 Jun 17.
Abstract
The chemical species involved in H2S signaling remain elusive despite the profound and pleiotropic physiological effects elicited by this molecule. The dominant candidate mechanism for sulfide signaling is persulfidation of target proteins. However, the relatively poor reactivity of H2S toward oxidized thiols, such as disulfides, the low concentration of disulfides in the reducing milieu of the cell and the low steady-state concentration of H2S raise questions about the plausibility of persulfide formation via reaction between an oxidized thiol and a sulfide anion or a reduced thiol and oxidized hydrogen disulfide. In contrast, sulfide oxidation pathways, considered to be primarily mechanisms for disposing of excess sulfide, generate a series of reactive sulfur species, including persulfides, polysulfides and thiosulfate, that could modify target proteins. We posit that sulfide oxidation pathways mediate sulfide signaling and that sulfurtransferases ensure target specificity.
摘要
尽管硫化氢(H2S)分子能引发深刻且多效的生理效应,但其信号传导所涉及的化学物质仍不明确。硫化物信号传导的主要候选机制是靶蛋白的过硫化作用。然而,H2S与氧化型硫醇(如二硫化物)的反应活性相对较低,细胞还原环境中二硫化物的浓度较低,以及H2S的稳态浓度较低,这使得通过氧化型硫醇与硫离子或还原型硫醇与氧化型二硫化氢之间的反应形成过硫化物的合理性受到质疑。相比之下,硫化物氧化途径(被认为主要是处理过量硫化物的机制)会产生一系列活性硫物种,包括过硫化物、多硫化物和硫代硫酸盐,这些物质可能会修饰靶蛋白。我们推测,硫化物氧化途径介导硫化物信号传导,而硫转移酶确保了靶标特异性。
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