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Cyclin E-induced replicative stress drives p53-dependent whole-genome duplication

Jingkun Zeng, Stephanie A. Hills, Eiko Ozono, John F.X. Diffley

2023Cell144 citationsDOIOpen Access PDF

Abstract

Whole-genome duplication (WGD) is a frequent event in cancer evolution and an important driver of aneuploidy. The role of the p53 tumor suppressor in WGD has been enigmatic: p53 can block the proliferation of tetraploid cells, acting as a barrier to WGD, but can also promote mitotic bypass, a key step in WGD via endoreduplication. In wild-type (WT) p53 tumors, WGD is frequently associated with activation of the E2F pathway, especially amplification of CCNE1 , encoding cyclin E1. Here, we show that elevated cyclin E1 expression causes replicative stress, which activates ATR- and Chk1-dependent G2 phase arrest. p53, via its downstream target p21, together with Wee1, then inhibits mitotic cyclin-dependent kinase activity sufficiently to activate APC/C Cdh1 and promote mitotic bypass. Cyclin E expression suppresses p53-dependent senescence after mitotic bypass, allowing cells to complete endoreduplication. Our results indicate that p53 can contribute to cancer evolution through the promotion of WGD.

Topics & Concepts

BiologyEndoreduplicationCyclinMitosisCell biologyCancer researchGene duplicationG2-M DNA damage checkpointCyclin BCell cycle checkpointCell cycleGeneticsCancerGeneMicrotubule and mitosis dynamicsCancer-related Molecular PathwaysChromosomal and Genetic Variations