人热休克蛋白（Hsp27）的位点特异性糖基化增强其伴侣活性。

Site-Specific Glycation of Human Heat Shock Protein (Hsp27) Enhances Its Chaperone Activity.

机构信息

University of Vienna, Faculty of Chemistry, Institute of Biological Chemistry, Währinger Strasse 38, 1090 Vienna, Austria.

Vienna Doctoral School in Chemistry, Währinger Strasse 42, 1090 Vienna, Austria.

出版信息

ACS Chem Biol. 2023 Aug 18;18(8):1760-1771. doi: 10.1021/acschembio.3c00214. Epub 2023 Jul 14.

DOI:10.1021/acschembio.3c00214

PMID:37449780

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10442856/

Abstract

Non-enzymatic posttranslational modifications are believed to affect at least 30% of human proteins, commonly termed glycation. Many of these modifications are implicated in various pathological conditions, e.g., cataract, diabetes, neurodegenerative diseases, and cancer. Chemical protein synthesis enables access to full-length proteins carrying site-specific modifications. One such modification, argpyrimidine (Apy), has been detected in human small heat shock protein Hsp27 and closely related proteins in patient-derived tissues. Thus far, studies have looked into only artificial mixtures of Apy modifications, and only one has analyzed Apy188. We were interested in understanding the impact of such individual Apy modifications on five different arginine sites within the crucial N-terminal domain of Hsp27. By combining protein semisynthesis with biochemical assays on semisynthetic Hsp27 analogues with single-point Apy modification at those sites, we have shown how a seemingly minimal modification within this region results in dramatically altered functional attributes.

摘要

非酶促翻译后修饰被认为至少影响了 30%的人类蛋白质，通常被称为糖化。这些修饰中的许多与各种病理状况有关，例如白内障、糖尿病、神经退行性疾病和癌症。化学蛋白质合成使人们能够获得全长蛋白质，这些蛋白质带有特定位置的修饰。在人类小热休克蛋白 Hsp27 及其在患者来源组织中密切相关的蛋白质中已经检测到了一种这样的修饰，即精氨酸嘧啶（Apy）。到目前为止，研究只关注 Apy 修饰的人工混合物，而且只有一项研究分析了 Apy188。我们有兴趣了解这种单个 Apy 修饰对 Hsp27 关键 N 端结构域中五个不同精氨酸位点的影响。通过将蛋白质半合成与半合成 Hsp27 类似物的生化分析相结合，这些类似物在这些位点上进行单点 Apy 修饰，我们展示了该区域内看似最小的修饰如何导致功能属性发生显著改变。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0753/10442856/2ffc7f754d13/cb3c00214_0001.jpg

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人热休克蛋白（Hsp27）的位点特异性糖基化增强其伴侣活性。

Site-Specific Glycation of Human Heat Shock Protein (Hsp27) Enhances Its Chaperone Activity.

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