Mutation of the Ser18 phosphorylation site on the sole Saccharomyces cerevisiae UCS protein, She4, can compromise high-temperature survival.

Cell Stress and Chaperones Pub Date : 2017-01-01 Epub Date: 2016-11-25 DOI:10.1007/s12192-016-0750-0
Susana Gomez-Escalante, Peter W Piper, Stefan H Millson
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Abstract

Folding of the myosin head often requires the joint actions of Hsp90 and a dedicated UNC45, Cro1, She4 (UCS) domain-containing cochaperone protein. Relatively weak sequence conservation exists between the single UCS protein of simple eukaryotes (She4 in budding yeast) and the two UCS proteins of higher organisms (the general cell and smooth muscle UNC45s; UNC45-GC and UNC45-SM respectively). In vertebrates, UNC45-GC facilitates cytoskeletal function whereas the 55% identical UNC45-SM assists in the assembly of the contractile apparatus of cardiac and skeletal muscles. UNC45-SM, unlike UNC45-GC, shares with yeast She4 an IDSL sequence motif known to be a site of in vivo serine phosphorylation in yeast. Investigating this further, we found that both a non-phosphorylatable (S18A) and a phosphomimetic (S18E) mutant form of She4 could rescue the type 1 myosin localisation and endocytosis defects of the yeast she4Δ mutant at 39 °C. Nevertheless, at higher temperature (45 °C), only She4 (S18A), not She4(S18E), could substantially rescue the cell lysis defect of she4Δ mutant cells. In the yeast two-hybrid system, the non-phosphorylatable S18A and S251A mutant forms of She4 and UNC45-SM still displayed the stress-enhanced in vivo interaction with Hsp90 seen with the wild-type She4 and UNC45-SM. Such high-temperature enforcement to interaction was though lost with the phosphomimetic mutant forms (She4(S18E) and UNC45-SM (S251E)), an indication that phosphorylation might suppress these increases in She4/Hsp90 and UNC45-SM/Hsp90 interaction with stress.

唯一的酿酒酵母 UCS 蛋白 She4 上的 Ser18 磷酸化位点突变会影响高温生存。
肌球蛋白头部的折叠通常需要 Hsp90 和专用的含 UNC45、Cro1、She4(UCS)结构域的辅助伴侣蛋白的共同作用。简单真核生物的单一 UCS 蛋白(萌芽酵母中的 She4)与高等生物的两种 UCS 蛋白(普通细胞 UNC45 和平滑肌 UNC45;分别为 UNC45-GC 和 UNC45-SM)之间的序列保守性相对较弱。在脊椎动物中,UNC45-GC 促进细胞骨架功能,而 55% 相同的 UNC45-SM 则协助心肌和骨骼肌收缩装置的组装。与 UNC45-GC 不同,UNC45-SM 与酵母 She4 共享一个 IDSL 序列基序,已知该基序是酵母体内丝氨酸磷酸化的位点。为了进一步研究这个问题,我们发现 She4 的非磷酸化(S18A)和磷酸拟态(S18E)突变体形式都能在 39 °C下挽救酵母 she4Δ 突变体的 1 型肌球蛋白定位和内吞缺陷。然而,在更高温度(45 °C)下,只有 She4 (S18A),而不是 She4(S18E),能极大地挽救 she4Δ 突变体细胞的细胞裂解缺陷。在酵母双杂交系统中,非磷酸化的S18A和S251A突变体形式的She4和UNC45-SM仍然显示出野生型She4和UNC45-SM在体内与Hsp90相互作用的应激增强效应。不过,拟磷酸化突变体形式(She4(S18E)和 UNC45-SM (S251E))失去了这种高温下的相互作用,这表明磷酸化可能会抑制 She4/Hsp90 和 UNC45-SM/Hsp90 与应激相互作用的增加。
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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