AI Article Synopsis
- Prolonged mitotic arrest can trigger mitotic catastrophe, which is a promising strategy for cancer treatment, highlighting the role of antiapoptotic proteins like BCL-XL in managing cell survival during this phase.
- Compensatory changes in the expression of related proteins BCL2 and MCL1 complicate research, prompting the use of a specialized system to silence BCL-XL just before mitosis.
- The study concludes that BCL-XL is crucial in preventing apoptosis during mitotic arrest, even more so than BCL2, and that its loss leads to cell death primarily through a BAX-dependent mechanism, while MCL1 can help buffer this effect.
Article 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.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10764939 | PMC |
| http://dx.doi.org/10.1038/s41419-023-06404-9 | DOI Listing |
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