SUMO 化的 BubR1 在染色体分离和有丝分裂时间调节中发挥重要作用。

Sumoylated BubR1 plays an important role in chromosome segregation and mitotic timing.

机构信息

Department of Environmental Medicine, New York University School of Medicine, Tuxedo, NY, USA.

出版信息

Cell Cycle. 2012 Feb 15;11(4):797-806. doi: 10.4161/cc.11.4.19307.

DOI:10.4161/cc.11.4.19307

PMID:22374677

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3318109/

Abstract

BubR1 is an important component of the spindle assembly checkpoint, and deregulated BubR1 functions frequently result in chromosomal instability and malignant transformation. We recently demonstrated that BubR1 was modified by sumoylation, and that lysine 250 (K250) functions as the crucial site for this modification. BubR1 sumoylation was neither required for its activation nor for binding to kinetochores. However, ectopically expressed sumoylation-deficient BubR1 mutants were retained on the kintochores even after apparent chromosome congression. The kinetochore retention of the sumoylation-deficient mutant of BubR1 caused an anaphase delay coupled with premature sister chromatid separation. Moreover, BubR1 interacted with unphosphorylated Sgo1, and its sumoylation facilitated the interaction. BubR1 sumoylation was inversely associated with its acetylation during mitotic progression. Trichostatin A, a protein deacetylase inhibitor, significantly compromised BubR1 sumoylation. Combined, these results reveal that BubR1 sumoylation plays an important role in its timely removal from the kinetochores and the checkpoint inactivation, thus allowing normal anaphase entry and chromosome segregation.

摘要

BubR1 是纺锤体组装检验点的一个重要组成部分，BubR1 功能失调常常导致染色体不稳定和恶性转化。我们最近的研究表明，BubR1 可被 SUMO 化修饰，赖氨酸 250（K250）是其 SUMO 化修饰的关键位点。BubR1 的 SUMO 化修饰既不需要其激活，也不需要与着丝粒结合。然而，在着丝粒上保留了表达的 SUMO 化缺陷的 BubR1 突变体，即使在染色体明显聚集后仍然如此。SUMO 化缺陷的 BubR1 突变体在动粒上的保留导致了有丝分裂后期延迟，同时伴随着过早的姐妹染色单体分离。此外，BubR1 与未磷酸化的 Sgo1 相互作用，并且其 SUMO 化促进了这种相互作用。在有丝分裂进程中，BubR1 的 SUMO 化与乙酰化呈负相关。蛋白去乙酰化酶抑制剂 Trichostatin A 显著降低了 BubR1 的 SUMO 化。综合这些结果表明，BubR1 的 SUMO 化在其从着丝粒上的及时去除和检验点失活中发挥着重要作用，从而允许正常的有丝分裂进入和染色体分离。

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