Hsp70 Binding to the N-terminal Domain of Hsp104 Regulates [PSI⁺] Curing by Hsp104 Overexpression.

IF 3.2 2区生物学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY

Molecular and Cellular Biology Pub Date : 2023-01-01 Epub Date: 2023-04-26 DOI:10.1080/10985549.2023.2198181

Xiaohong Zhao, Katherine Stanford, Joseph Ahearn, Daniel C Masison, Lois E Greene

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引用次数: 0

Abstract

Hsp104 propagates the yeast prion [PSI⁺], the infectious form of Sup35, by severing the prion seeds, but when Hsp104 is overexpressed, it cures [PSI⁺] in a process that is not yet understood but may be caused by trimming, which removes monomers from the ends of the amyloid fibers. This curing was shown to depend on both the N-terminal domain of Hsp104 and the expression level of various members of the Hsp70 family, which raises the question as to whether these effects of Hsp70 are due to it binding to the Hsp70 binding site that was identified in the N-terminal domain of Hsp104, a site not involved in prion propagation. Investigating this question, we now find, first, that mutating this site prevents both the curing of [PSI⁺] by Hsp104 overexpression and the trimming activity of Hsp104. Second, we find that depending on the specific member of the Hsp70 family binding to the N-terminal domain of Hsp104, both trimming and the curing caused by Hsp104 overexpression are either increased or decreased in parallel. Therefore, the binding of Hsp70 to the N-terminal domain of Hsp104 regulates both the rate of [PSI⁺] trimming by Hsp104 and the rate of [PSI⁺] curing by Hsp104 overexpression.

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Hsp70与Hsp104 N-末端结构域的结合通过Hsp104过表达调控[PSI+]固化。

Hsp104通过切断朊病毒种子来传播酵母朊病毒[PSI+]（Sup35的感染形式），但当Hsp104过度表达时，它会在一个尚不清楚的过程中固化[PSI+]，但这个过程可能是由修剪（从淀粉样纤维末端去除单体）引起的。研究表明，这种固化既取决于 Hsp104 的 N 端结构域，也取决于 Hsp70 家族各种成员的表达水平，这就提出了一个问题：Hsp70 的这些作用是否是由于它与 Hsp70 的结合位点（已在 Hsp104 的 N 端结构域中确定）结合所致？为了研究这个问题，我们现在发现，首先，突变这个位点既能阻止 Hsp104 过表达对[PSI+]的固化，也能阻止 Hsp104 的修剪活性。其次，我们发现，根据与 Hsp104 N 端结构域结合的 Hsp70 家族特定成员的不同，Hsp104 过表达引起的修剪和固化要么同时增加，要么同时减少。因此，Hsp70与Hsp104 N-末端结构域的结合既能调节Hsp104的[PSI+]修剪率，也能调节Hsp104过表达的[PSI+]固化率。

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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来源期刊

Molecular and Cellular Biology 生物-生化与分子生物学

CiteScore

9.80

自引率

1.90%

发文量

120

审稿时长

1 months

期刊介绍： Molecular and Cellular Biology (MCB) showcases significant discoveries in cellular morphology and function, genome organization, regulation of genetic expression, morphogenesis, and somatic cell genetics. The journal also examines viral systems, publishing papers that emphasize their impact on the cell.