Msd1-Wdr8-Pkl1复合物将微管负端锚定到裂殖酵母纺锤体极体上。

The Msd1-Wdr8-Pkl1 complex anchors microtubule minus ends to fission yeast spindle pole bodies.

作者信息

Yukawa Masashi, Ikebe Chiho, Toda Takashi

机构信息

The Francis Crick Institute, Lincoln's Inn Fields Laboratory, London WC2A 3LY, England, UK Department of Molecular Biotechnology, Graduate School of Advanced Sciences of Matter, Hiroshima University, Higashi-Hiroshima 739-8530, Japan.

The Francis Crick Institute, Lincoln's Inn Fields Laboratory, London WC2A 3LY, England, UK.

出版信息

J Cell Biol. 2015 May 25;209(4):549-62. doi: 10.1083/jcb.201412111. Epub 2015 May 18.

DOI:10.1083/jcb.201412111

PMID:25987607

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4442821/

Abstract

The minus ends of spindle microtubules are anchored to a microtubule-organizing center. The conserved Msd1/SSX2IP proteins are localized to the spindle pole body (SPB) and the centrosome in fission yeast and humans, respectively, and play a critical role in microtubule anchoring. In this paper, we show that fission yeast Msd1 forms a ternary complex with another conserved protein, Wdr8, and the minus end-directed Pkl1/kinesin-14. Individual deletion mutants displayed the identical spindle-protrusion phenotypes. Msd1 and Wdr8 were delivered by Pkl1 to mitotic SPBs, where Pkl1 was tethered through Msd1-Wdr8. The spindle-anchoring defect imposed by msd1/wdr8/pkl1 deletions was suppressed by a mutation of the plus end-directed Cut7/kinesin-5, which was shown to be mutual. Intriguingly, Pkl1 motor activity was not required for its anchoring role once targeted to the SPB. Therefore, spindle anchoring through Msd1-Wdr8-Pkl1 is crucial for balancing the Cut7/kinesin-5-mediated outward force at the SPB. Our analysis provides mechanistic insight into the spatiotemporal regulation of two opposing kinesins to ensure mitotic spindle bipolarity.

摘要

纺锤体微管的负极锚定在微管组织中心。保守的Msd1/SSX2IP蛋白分别定位于裂殖酵母的纺锤极体（SPB）和人类的中心体，并在微管锚定中起关键作用。在本文中，我们表明裂殖酵母Msd1与另一种保守蛋白Wdr8以及负极定向的Pkl1/驱动蛋白-14形成三元复合物。单个缺失突变体表现出相同的纺锤体突出表型。Msd1和Wdr8由Pkl1转运至有丝分裂SPB，Pkl1通过Msd1-Wdr8与SPB相连。msd1/wdr8/pkl1缺失导致的纺锤体锚定缺陷可被正极定向的Cut7/驱动蛋白-5的突变抑制，反之亦然。有趣的是，一旦Pkl1靶向至SPB，其运动活性对于其锚定作用并非必需。因此，通过Msd1-Wdr8-Pkl1进行的纺锤体锚定对于平衡Cut7/驱动蛋白-5在SPB处介导的向外力至关重要。我们的分析为两种相反驱动蛋白的时空调节提供了机制性见解，以确保有丝分裂纺锤体的双极性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0247/4442821/75ad1fd9f2c1/JCB_201412111_Fig1.jpg

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Msd1-Wdr8-Pkl1复合物将微管负端锚定到裂殖酵母纺锤体极体上。

The Msd1-Wdr8-Pkl1 complex anchors microtubule minus ends to fission yeast spindle pole bodies.

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