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BCL-XL regulates the timing of mitotic apoptosis independently of BCL2 and MCL1 compensation

Chun Yin Yu, Tsz Kwan Yeung, Wai Kuen Fu, Randy Y.C. Poon

2024Cell Death and Disease14 citationsDOIOpen Access PDF

Abstract

Mitotic catastrophe induced by prolonged mitotic arrest is a major anticancer strategy. Although antiapoptotic BCL2-like proteins, including BCL-XL, are known to regulate apoptosis during mitotic arrest, adaptive changes in their expression can complicate loss-of-function studies. Our studies revealed compensatory alterations in the expression of BCL2 and MCL1 when BCL-XL is either downregulated or overexpressed. To circumvent their reciprocal regulation, we utilized a degron-mediated system to acutely silence BCL-XL just before mitosis. Our results show that in epithelial cell lines including HeLa and RPE1, BCL-XL and BCL2 acted collaboratively to suppress apoptosis during both unperturbed cell cycle and mitotic arrest. By tagging BCL-XL and BCL2 with a common epitope, we estimated that BCL-XL was less abundant than BCL2 in the cell. Nonetheless, BCL-XL played a more prominent antiapoptotic function than BCL2 during interphase and mitotic arrest. Loss of BCL-XL led to mitotic cell death primarily through a BAX-dependent process. Furthermore, silencing of BCL-XL led to the stabilization of MCL1, which played a significant role in buffering apoptosis during mitotic arrest. Nevertheless, even in a MCL1-deficient background, depletion of BCL-XL accelerated mitotic apoptosis. These findings underscore the pivotal involvement of BCL-XL in controlling timely apoptosis during mitotic arrest, despite adaptive changes in the expression of other BCL2-like proteins.

Topics & Concepts

MitosisBcl-xLMCL1Mitotic catastropheCell biologyPLK1ApoptosisBiologyProgrammed cell deathMitotic exitHeLaGene silencingCell cycle checkpointCell cycleCancer researchCellAnaphaseDownregulation and upregulationGeneticsGeneMicrotubule and mitosis dynamicsMitochondrial Function and PathologyUbiquitin and proteasome pathways
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