I 型 Hsp40s/DnaJs 聚集体表现出与淀粉样蛋白生成结构相似的特征。

Ana O. Tiroli-Cepeda, Leonardo A. Linhares, Annelize Z. B. Aragão, Jemmyson R. de Jesus, Ana P. Wasilewska-Sampaio, Fernanda G. De Felice, Sérgio T. Ferreira, Júlio C. Borges, Douglas M. Cyr, Carlos H. I. Ramos
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引用次数: 0

摘要

温度升高会引发人类 I 型 40 kDa 热休克蛋白(Hsp40/DnaJ)(即 DNAJA1)的结构变化。这种变化导致结构变得不那么紧凑,其特点是溶剂暴露的疏水斑块和富含β片的区域增多。圆二色性、硫黄素 T 结合和 Bis-ANS 试验验证了这种转变。这种富含β片的构象的形成在缺锌的情况下会放大,导致蛋白质聚集。这种聚集不仅受高温诱导,而且受低离子强度和高蛋白质浓度诱导。这种聚集构象具有淀粉样结构的特征,包括独特的 X 射线衍射图样、播种能力(可刺激淀粉样聚集体的形成)、细胞毒性、对 SDS 的抗性以及纤维的形成。有趣的是,在类似条件下,酵母 I 型 Ydj1 也倾向于采用类似的富含 β 片层的结构,而 II 型 Hsp40(无论是人类还是酵母)则不然。此外,研究还发现 Ydj1 的聚集体具有细胞毒性。利用DNAJA1-和Ydj1-缺失突变体进行的研究表明,锌指区域在淀粉样蛋白形成过程中起着至关重要的作用。我们发现 DNAJA1 的 C 端缺失突变体(类似于在睾丸中表达的剪接同源物)中存在淀粉样蛋白聚集,这意味着 I 型 Hsp40 协同伴侣可能在体内产生淀粉样蛋白。
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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Type I Hsp40s/DnaJs aggregates exhibit features reminiscent of amyloidogenic structures

A rise in temperature triggers a structural change in the human Type I 40 kDa heat shock protein (Hsp40/DnaJ), known as DNAJA1. This change leads to a less compact structure, characterized by an increased presence of solvent-exposed hydrophobic patches and β-sheet-rich regions. This transformation is validated by circular dichroism, thioflavin T binding, and Bis-ANS assays. The formation of this β-sheet-rich conformation, which is amplified in the absence of zinc, leads to protein aggregation. This aggregation is induced not only by high temperatures but also by low ionic strength and high protein concentration. The aggregated conformation exhibits characteristics of an amyloidogenic structure, including a distinctive X-ray diffraction pattern, seeding competence (which stimulates the formation of amyloid-like aggregates), cytotoxicity, resistance to SDS, and fibril formation. Interestingly, the yeast Type I Ydj1 also tends to adopt a similar β-sheet-rich structure under comparable conditions, whereas Type II Hsp40s, whether human or from yeast, do not. Moreover, Ydj1 aggregates were found to be cytotoxic. Studies using DNAJA1- and Ydj1-deleted mutants suggest that the zinc-finger region plays a crucial role in amyloid formation. Our discovery of amyloid aggregation in a C-terminal deletion mutant of DNAJA1, which resembles a spliced homolog expressed in the testis, implies that Type I Hsp40 co-chaperones may generate amyloidogenic species in vivo.

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