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裂殖酵母中细胞周期的调控及对流体静压力的应激反应

Regulation of cell cycle and stress responses to hydrostatic pressure in fission yeast.

作者信息

George Vinoj T, Brooks Gavin, Humphrey Timothy C

机构信息

Medical Research Council Radiation Oncology and Biology Unit, Harwell, Didcot, Oxfordshire, OX11 0RD, United Kingdom.

出版信息

Mol Biol Cell. 2007 Oct;18(10):4168-79. doi: 10.1091/mbc.e06-12-1141. Epub 2007 Aug 15.

DOI:10.1091/mbc.e06-12-1141
PMID:17699598
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1995737/
Abstract

We have investigated the cellular responses to hydrostatic pressure by using the fission yeast Schizosaccharomyces pombe as a model system. Exposure to sublethal levels of hydrostatic pressure resulted in G2 cell cycle delay. This delay resulted from Cdc2 tyrosine-15 (Y-15) phosphorylation, and it was abrogated by simultaneous disruption of the Cdc2 kinase regulators Cdc25 and Wee1. However, cell cycle delay was independent of the DNA damage, cytokinesis, and cell size checkpoints, suggesting a novel mechanism of Cdc2-Y15 phosphorylation in response to hydrostatic pressure. Spc1/Sty1 mitogen-activated protein (MAP) kinase, a conserved member of the eukaryotic stress-activated p38, mitogen-activated protein (MAP) kinase family, was rapidly activated after pressure stress, and it was required for cell cycle recovery under these conditions, in part through promoting polo kinase (Plo1) phosphorylation on serine 402. Moreover, the Spc1 MAP kinase pathway played a key role in maintaining cell viability under hydrostatic pressure stress through the bZip transcription factor, Atf1. Further analysis revealed that prestressing cells with heat increased barotolerance, suggesting adaptational cross-talk between these stress responses. These findings provide new insight into eukaryotic homeostasis after exposure to pressure stress.

摘要

我们以裂殖酵母粟酒裂殖酵母作为模型系统,研究了细胞对静水压力的反应。暴露于亚致死水平的静水压力会导致G2期细胞周期延迟。这种延迟是由Cdc2酪氨酸15(Y-15)磷酸化引起的,并且通过同时破坏Cdc2激酶调节因子Cdc25和Wee1而消除。然而,细胞周期延迟与DNA损伤、胞质分裂和细胞大小检查点无关,这表明存在一种响应静水压力的Cdc2-Y15磷酸化新机制。Spc1/Sty1丝裂原活化蛋白(MAP)激酶是真核应激激活的p38丝裂原活化蛋白(MAP)激酶家族的保守成员,在压力应激后迅速被激活,并且在这些条件下细胞周期恢复是必需的,部分原因是通过促进polo激酶(Plo1)丝氨酸402位点的磷酸化。此外,Spc1 MAP激酶途径通过bZip转录因子Atf1在静水压力应激下维持细胞活力方面发挥关键作用。进一步分析表明,用热对细胞进行预应激可提高耐压性,这表明这些应激反应之间存在适应性相互作用。这些发现为真核生物在暴露于压力应激后的稳态提供了新的见解。

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