pH 依赖性结构调节在人类小分子热休克蛋白 HSBP1 中是保守的。
pH-dependent structural modulation is conserved in the human small heat shock protein HSBP1.
作者信息
Clouser Amanda F, Klevit Rachel E
机构信息
Department of Biochemistry, University of Washington, Seattle, WA, 98195, USA.
出版信息
Cell Stress Chaperones. 2017 Jul;22(4):569-575. doi: 10.1007/s12192-017-0783-z. Epub 2017 Mar 22.
Abstract
The holdase activity and oligomeric propensity of human small heat shock proteins (sHSPs) are regulated by environmental factors. However, atomic-level details are lacking for the mechanisms by which stressors alter sHSP responses. We previously demonstrated that regulation of HSPB5 is mediated by a single conserved histidine over a physiologically relevant pH range of 6.5-7.5. Here, we demonstrate that HSPB1 responds to pH via a similar mechanism through pH-dependent structural changes that are induced via protonation of the structurally analogous histidine. Results presented here show that acquisition of a positive charge, either by protonation of His124 or its substitution by lysine, reduces the stability of the dimer interface of the α-crystallin domain, increases oligomeric size, and modestly increases chaperone activity. Our results suggest a conserved mechanism of pH-dependent structural regulation among the human sHSPs that possess the conserved histidine, although the functional consequences of the structural modulations vary for different sHSPs.
摘要
人类小分子热休克蛋白(sHSPs)的分子伴侣活性和寡聚倾向受环境因素调控。然而,关于应激源改变sHSP反应的机制,尚缺乏原子水平的详细信息。我们之前证明,在6.5至7.5这一生理相关pH范围内,HSPB5的调控由单个保守组氨酸介导。在此,我们证明HSPB1通过类似机制对pH作出反应,即通过结构类似组氨酸的质子化诱导的pH依赖性结构变化。此处呈现的结果表明,通过His124的质子化或用赖氨酸取代His124而获得正电荷,会降低α-晶状体蛋白结构域二聚体界面的稳定性,增加寡聚体大小,并适度增加分子伴侣活性。我们的结果表明,在拥有保守组氨酸的人类sHSPs中,存在一种保守的pH依赖性结构调控机制,尽管结构调节的功能后果因不同的sHSPs而异。
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