PICH的转位酶活性与蛋白质募集功能在超细后期桥解体及基因组稳定性中的相互作用。

The interplay of the translocase activity and protein recruitment function of PICH in ultrafine anaphase bridge resolution and genomic stability.

作者信息

Kong Nannan, Chen Kun, Chanboonyasitt Primrose, Jiang Huadong, Wong Ka Yan, Ma Hoi Tang, Chan Ying Wai

机构信息

School of Biological Sciences, The University of Hong Kong, Pokfulam Road, Hong Kong SAR, China.

Department of Pathology, School of Clinical Medicine, Li Ka Shing Faculty of Medicine, The University of Hong Kong, Hong Kong SAR, China.

出版信息

Nucleic Acids Res. 2025 Jan 24;53(3). doi: 10.1093/nar/gkae1249.

DOI:10.1093/nar/gkae1249

PMID:39704103

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11797016/

Abstract

Incomplete sister centromere decatenation results in centromeric ultrafine anaphase bridges (UFBs). PICH (PLK1-interacting checkpoint helicase), a DNA translocase, plays a crucial role in UFB resolution by recruiting UFB-binding proteins and stimulating topoisomerase IIα. However, the involvement of distinct PICH functions in UFB resolution remains ambiguous. Here, we demonstrate that PICH depletion in non-transformed diploid cells induces DNA damage, micronuclei formation, p53 activation, G1-phase delay and cell death. Whole-genome sequencing reveals that segregation defects induced by PICH depletion cause chromosomal rearrangements, including translocations and inversions, emphasizing its significance in preserving genomic integrity. Furthermore, a PICH mutant that impairs UFB recruitment of BLM and RIF1 partially inhibits UFB resolution while a translocase-inactive mutant (PICHK128A) fails to resolve UFBs. Notably, expression of PICHK128A inhibits single-stranded UFB formation and induces hypocondensed chromosomes. We propose that PICH's translocase activity plays a dual role in promoting UFB resolution by facilitating the generation of single-stranded UFBs and stimulating topoisomerase IIα.

摘要

不完全的姐妹着丝粒解连环会导致着丝粒超细微后期桥（UFBs）的形成。PICH（与PLK1相互作用的检查点解旋酶）作为一种DNA转位酶，通过招募UFB结合蛋白并刺激拓扑异构酶IIα，在UFB的解离过程中发挥关键作用。然而，PICH不同功能在UFB解离中的具体作用仍不明确。在此，我们证明在未转化的二倍体细胞中耗尽PICH会诱导DNA损伤、微核形成、p53激活、G1期延迟和细胞死亡。全基因组测序显示，PICH耗尽诱导的分离缺陷会导致染色体重排，包括易位和倒位，凸显了其在维持基因组完整性方面的重要性。此外，一个损害BLM和RIF1在UFB上募集的PICH突变体部分抑制了UFB的解离，而一个转位酶失活的突变体（PICHK128A）则无法解离UFB。值得注意的是，PICHK128A的表达抑制了单链UFB的形成并诱导了染色体解聚。我们提出，PICH的转位酶活性通过促进单链UFB的产生和刺激拓扑异构酶IIα，在促进UFB解离中发挥双重作用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/942a/11797016/e8ae1f884b85/gkae1249figgra1.jpg

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PICH的转位酶活性与蛋白质募集功能在超细后期桥解体及基因组稳定性中的相互作用。

The interplay of the translocase activity and protein recruitment function of PICH in ultrafine anaphase bridge resolution and genomic stability.

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