PICH通过其DNA转位酶和SUMO相互作用活性影响纺锤体组装检查点。

PICH impacts the spindle assembly checkpoint via its DNA translocase and SUMO-interaction activities.

作者信息

Lama Bunu, Park Hyewon, Saraf Anita, Hassebroek Victoria, Keifenheim Daniel, Saito-Fujita Tomoko, Saitoh Noriko, Aksenova Vasilisa, Arnaoutov Alexei, Dasso Mary, Clarke Duncan J, Azuma Yoshiaki

机构信息

Department of Molecular Biosciences, University of Kansas, Lawrence, KS, USA.

Mass Spectrometry and Analytical Proteomics Laboratory, University of Kansas, Lawrence, KS, USA.

出版信息

Life Sci Alliance. 2025 Feb 7;8(4). doi: 10.26508/lsa.202403140. Print 2025 Apr.

DOI:10.26508/lsa.202403140

PMID:39919802

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11806350/

Abstract

Either inhibiting or stabilizing SUMOylation in mitosis causes defects in chromosome segregation, suggesting that dynamic mitotic SUMOylation of proteins is critical to maintain integrity of the genome. Polo-like kinase 1-interacting checkpoint helicase (PICH), a mitotic chromatin remodeling enzyme, interacts with SUMOylated chromosomal proteins via three UMO-nteracting otifs (SIMs) to control their association with chromosomes. Using cell lines with conditional PICH depletion/PICH replacement, we revealed mitotic defects associated with compromised PICH functions toward SUMOylated chromosomal proteins. Defects in either remodeling activity or SIMs of PICH delayed mitotic progression caused by activation of the spindle assembly checkpoint (SAC) indicated by extended duration of Mad1 foci at centromeres. Proteomics analysis of chromosomal SUMOylated proteins whose abundance is controlled by PICH activity identified candidate proteins to explain the SAC activation phenotype. Among the identified candidates, Bub1 kinetochore abundance is increased upon loss of PICH. Our results demonstrated a novel relationship between PICH and the SAC, where PICH directly or indirectly affects Bub1 association at the kinetochore and impacts SAC activity to control mitosis.

摘要

在有丝分裂过程中抑制或稳定小泛素样修饰（SUMOylation）都会导致染色体分离缺陷，这表明蛋白质的动态有丝分裂SUMOylation对于维持基因组的完整性至关重要。Polo样激酶1相互作用的检查点解旋酶（PICH）是一种有丝分裂染色质重塑酶，它通过三个SUMO相互作用基序（SIMs）与SUMO化的染色体蛋白相互作用，以控制它们与染色体的关联。利用条件性PICH缺失/ PICH替代的细胞系，我们揭示了与PICH对SUMO化染色体蛋白功能受损相关的有丝分裂缺陷。PICH的重塑活性或SIMs缺陷会延迟由纺锤体组装检查点（SAC）激活引起的有丝分裂进程，这表现为着丝粒处Mad1焦点持续时间延长。对其丰度受PICH活性控制的染色体SUMO化蛋白进行蛋白质组学分析，确定了一些候选蛋白来解释SAC激活表型。在鉴定出的候选蛋白中，Bub1在动粒处的丰度在PICH缺失时会增加。我们的结果证明了PICH与SAC之间的一种新关系，即PICH直接或间接影响Bub1在动粒处的结合，并影响SAC活性以控制有丝分裂。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/497e/11806350/5c800176dca3/LSA-2024-03140_Fig1.jpg

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PICH通过其DNA转位酶和SUMO相互作用活性影响纺锤体组装检查点。

PICH impacts the spindle assembly checkpoint via its DNA translocase and SUMO-interaction activities.

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