极光激酶A、MCAK和驱动蛋白18b促进不依赖于Eg5的纺锤体形成。

Aurora A, MCAK, and Kif18b promote Eg5-independent spindle formation.

作者信息

van Heesbeen Roy G H P, Raaijmakers Jonne A, Tanenbaum Marvin E, Halim Vincentius A, Lelieveld Daphne, Lieftink Cor, Heck Albert J R, Egan David A, Medema René H

机构信息

Division of Cell Biology, The Netherlands Cancer Institute, Amsterdam, The Netherlands.

Hubrecht Institute, The Royal Netherlands Academy of Arts and Sciences (KNAW) and University Medical Center Utrecht, Utrecht, the Netherlands.

出版信息

Chromosoma. 2017 Aug;126(4):473-486. doi: 10.1007/s00412-016-0607-4. Epub 2016 Jun 29.

DOI:10.1007/s00412-016-0607-4

PMID:27354041

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5509784/

Abstract

Inhibition of the microtubule (MT) motor protein Eg5 results in a mitotic arrest due to the formation of monopolar spindles, making Eg5 an attractive target for anti-cancer therapies. However, Eg5-independent pathways for bipolar spindle formation exist, which might promote resistance to treatment with Eg5 inhibitors. To identify essential components for Eg5-independent bipolar spindle formation, we performed a genome-wide siRNA screen in Eg5-independent cells (EICs). We find that the kinase Aurora A and two kinesins, MCAK and Kif18b, are essential for bipolar spindle assembly in EICs and in cells with reduced Eg5 activity. Aurora A promotes bipolar spindle assembly by phosphorylating Kif15, hereby promoting Kif15 localization to the spindle. In turn, MCAK and Kif18b promote bipolar spindle assembly by destabilizing the astral MTs. One attractive way to interpret our data is that, in the absence of MCAK and Kif18b, excessive astral MTs generate inward pushing forces on centrosomes at the cortex that inhibit centrosome separation. Together, these data suggest a novel function for astral MTs in force generation on spindle poles and how proteins involved in regulating microtubule length can contribute to bipolar spindle assembly.

摘要

微管（MT）驱动蛋白Eg5的抑制会导致有丝分裂停滞，这是由于单极纺锤体的形成，使得Eg5成为抗癌治疗的一个有吸引力的靶点。然而，存在不依赖Eg5的双极纺锤体形成途径，这可能会促进对Eg5抑制剂治疗的抗性。为了确定不依赖Eg5的双极纺锤体形成的必需成分，我们在不依赖Eg5的细胞（EICs）中进行了全基因组siRNA筛选。我们发现激酶Aurora A以及两种驱动蛋白MCAK和Kif18b对于EICs和Eg5活性降低的细胞中的双极纺锤体组装至关重要。Aurora A通过磷酸化Kif15来促进双极纺锤体组装，从而促进Kif15定位于纺锤体。反过来，MCAK和Kif18b通过使星体微管不稳定来促进双极纺锤体组装。一种解释我们数据的有吸引力的方式是，在没有MCAK和Kif18b的情况下，过多的星体微管会在皮层的中心体上产生向内的推力，从而抑制中心体分离。总之，这些数据揭示了星体微管在纺锤体极上产生力的新功能，以及参与调节微管长度的蛋白质如何有助于双极纺锤体组装。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0372/5509784/b30a267d15e5/412_2016_607_Fig1_HTML.jpg

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极光激酶A、MCAK和驱动蛋白18b促进不依赖于Eg5的纺锤体形成。

Aurora A, MCAK, and Kif18b promote Eg5-independent spindle formation.

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