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MYO10 regulates genome stability and cancer inflammation through mediating mitosis

Franklin Mayca Pozo, Xinran Geng, Masaru Miyagi, Amanda L. Amin, Alex Y. Huang, Youwei Zhang

2023Cell Reports14 citationsDOIOpen Access PDF

Abstract

Genomic instability can promote inflammation and tumor development. Previous research revealed an unexpected layer of regulation of genomic instability by a cytoplasmic protein MYO10; however, the underlying mechanism remained unclear. Here, we report a protein stability-mediated mitotic regulation of MYO10 in controlling genome stability. We characterized a degron motif and phosphorylation residues in the degron that mediate β-TrCP1-dependent MYO10 degradation. The level of phosphorylated MYO10 protein transiently increases during mitosis, which is accompanied by a spatiotemporal cellular localization change first accumulating at the centrosome then at the midbody. Depletion of MYO10 or expression of MYO10 degron mutants, including those found in cancer patients, disrupts mitosis, increases genomic instability and inflammation, and promotes tumor growth; however, they also increase the sensitivity of cancer cells to Taxol. Our studies demonstrate a critical role of MYO10 in mitosis progression, through which it regulates genome stability, cancer growth, and cellular response to mitotic toxins.

Topics & Concepts

DegronMitosisGenome instabilityCell biologyBiologyCentrosomeChromosome instabilityPhosphorylationUbiquitinCell cycleDNA damageGeneticsGeneDNAUbiquitin ligaseChromosomeUbiquitin and proteasome pathwaysMicrotubule and mitosis dynamicsEndoplasmic Reticulum Stress and Disease