由于有丝分裂检查点减弱和染色体滞后导致Mps1自激活效率低下而引起的染色体不稳定。

Chromosomal instability by inefficient Mps1 auto-activation due to a weakened mitotic checkpoint and lagging chromosomes.

作者信息

Jelluma Nannette, Brenkman Arjan B, McLeod Ian, Yates John R, Cleveland Don W, Medema René H, Kops Geert J P L

机构信息

Department of Physiological Chemistry and Cancer Genomics Centre, UMC Utrecht, Utrecht, The Netherlands.

出版信息

PLoS One. 2008 Jun 11;3(6):e2415. doi: 10.1371/journal.pone.0002415.

DOI:10.1371/journal.pone.0002415

PMID:18545697

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2408436/

Abstract

BACKGROUND

Chromosomal instability (CIN), a feature widely shared by cells from solid tumors, is caused by occasional chromosome missegregations during cell division. Two of the causes of CIN are weakened mitotic checkpoint signaling and persistent merotelic attachments that result in lagging chromosomes during anaphase.

PRINCIPAL FINDINGS

Here we identify an autophosphorylation event on Mps1 that is required to prevent these two causes of CIN. Mps1 is phosphorylated in mitotic cells on at least 7 residues, 4 of which by autophosphorylation. One of these, T676, resides in the activation loop of the kinase domain and a mutant that cannot be phosphorylated on T676 is less active than wild-type Mps1 but is not kinase-dead. Strikingly, cells in which endogenous Mps1 was replaced with this mutant are viable but missegregate chromosomes frequently. Anaphase is initiated in the presence of misaligned and lagging chromosomes, indicative of a weakened checkpoint and persistent merotelic attachments, respectively.

CONCLUSIONS/SIGNIFICANCE: We propose that full activity of Mps1 is essential for maintaining chromosomal stability by allowing resolution of merotelic attachments and to ensure that single kinetochores achieve the strength of checkpoint signaling sufficient to prevent premature anaphase onset and chromosomal instability. To our knowledge, phosphorylation of T676 on Mps1 is the first post-translational modification in human cells of which the absence causes checkpoint weakening and CIN without affecting cell viability.

摘要

背景

染色体不稳定（CIN）是实体瘤细胞广泛共有的特征，由细胞分裂过程中偶尔发生的染色体错分离引起。CIN的两个原因是有丝分裂检查点信号减弱和持续的着丝粒外板附着，这导致后期出现落后染色体。

主要发现

在这里，我们鉴定了Mps1上的一种自磷酸化事件，该事件是预防CIN的这两个原因所必需的。Mps1在有丝分裂细胞中至少7个残基上被磷酸化，其中4个是通过自磷酸化。其中一个残基T676位于激酶结构域的激活环中，不能在T676上磷酸化的突变体比野生型Mps1活性低，但并非激酶失活。引人注目的是，用这种突变体替代内源性Mps1的细胞是有活力的，但经常发生染色体错分离。在存在未对齐和落后染色体的情况下启动后期，分别表明检查点减弱和持续的着丝粒外板附着。

结论/意义：我们提出，Mps1的完全活性对于维持染色体稳定性至关重要，它通过允许解决着丝粒外板附着问题，并确保单个动粒获得足以防止过早后期开始和染色体不稳定的检查点信号强度。据我们所知，Mps1上T676的磷酸化是人类细胞中第一个缺失会导致检查点减弱和CIN而不影响细胞活力的翻译后修饰。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f4f9/2408436/3631974f3167/pone.0002415.g001.jpg

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由于有丝分裂检查点减弱和染色体滞后导致Mps1自激活效率低下而引起的染色体不稳定。

Chromosomal instability by inefficient Mps1 auto-activation due to a weakened mitotic checkpoint and lagging chromosomes.

作者信息

机构信息

出版信息

BACKGROUND

PRINCIPAL FINDINGS

背景

主要发现

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