Clearance of yeast eRF-3 prion [PSI+] by amyloid enlargement due to the imbalance between chaperone Ssa1 and cochaperone Sgt2

Translation (Austin, Tex.) Pub Date : 2013-07-01 DOI:10.4161/trla.26574

Chie Arai, H. Kurahashi, C. Pack, Y. Sako, Yoshikazu Nakamura

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引用次数: 1

Abstract

The cytoplasmic [PSI+] element of budding yeast represents the prion conformation of translation release factor eRF-3 (Sup35). Prions are transmissible agents caused by self-seeded highly ordered aggregates (amyloids). Much interest lies in understanding how prions are developed and transmitted. However, the cellular mechanism involved in the prion clearance is unknown. Recently we have reported that excess misfolded multi-transmembrane protein, Dip5ΔC-v82, eliminates yeast prion [PSI+]. In this study, we showed that the prion loss was caused by enlargement of prion amyloids, unsuitable for transmission, and its efficiency was affected by the cellular balance between the chaperone Hsp70-Ssa1 and Sgt2, a small cochaperone known as a regulator of chaperone targeting to different types of aggregation-prone proteins. The present findings suggest that Sgt2 is titrated by excess Dip5ΔC-v82, and the shortage of Sgt2 led to non-productive binding of Ssa1 on [PSI+] amyloids. Clearance of prion [PSI+] by the imbalance between Ssa1 and Sgt2 might provide a novel array to regulate the release factor function in yeast.

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由于伴侣Ssa1和伴侣Sgt2之间的不平衡，淀粉样蛋白增大对酵母eRF-3朊病毒[PSI+]的清除

出芽酵母的胞质[PSI+]元件代表翻译释放因子eRF-3 (Sup35)的朊病毒构象。朊病毒是由自种的高度有序聚集体(淀粉样蛋白)引起的传染性病原体。人们的兴趣在于了解朊病毒是如何形成和传播的。然而，参与朊病毒清除的细胞机制尚不清楚。最近，我们报道了过量的错误折叠的多跨膜蛋白Dip5ΔC-v82可以消除酵母朊病毒[PSI+]。在本研究中，我们发现朊病毒损失是由朊病毒淀粉样体增大引起的，不适合传播，其效率受到伴侣蛋白Hsp70-Ssa1和Sgt2之间的细胞平衡的影响，Sgt2是一种小的伴侣蛋白，被称为伴侣蛋白靶向不同类型的聚集倾向蛋白的调节剂。目前的研究结果表明，过量的Dip5ΔC-v82会导致Sgt2的沉淀，而Sgt2的缺乏导致Ssa1在[PSI+]淀粉样蛋白上的非有效结合。Ssa1和Sgt2之间的不平衡对朊病毒[PSI+]的清除可能为调节酵母释放因子功能提供了一种新的阵列。

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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Translation (Austin, Tex.)

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