USP13 modulates the stability of the APC/C adaptor CDH1

Background The cell division cycle is a process that is exquisitely controlled by a complex interplay between E3 ubiquitin ligases and deubiquitinating enzymes (DUBs). We have previously reported that the DUB USP13 regulates Aurora B levels along the cell cycle. That observation prompted us to explore any possible connection between USP13 and the APC/C-CDH1, the major E3 controlling Aurora B levels in cells. Methods We performed immunoprecipitation assays followed by western-blotting to assess the interaction between USP13 and CDH1. The cellular effects of USP13 gain or loss of function were analyzed by transfection of FLAG-tagged USP13 plasmid or small interfering RNAs and short hairpin RNAs directed against USP13. The levels of CDH1 and other proteins were quantified in cell extracts by western-blotting. Results We found that USP13 binds to the APC/C adaptor CDH1. In addition, we report for the first time that USP13 controls CDH1 protein levels in cells: overexpression of USP13 increased CDH1 levels, whereas depletion of USP13 decreased CDH1 levels. Conclusions We unveil the existing interplay between USP13 and CDH1: USP13 is capable of stabilizing CDH1 levels. We previously reported that USP13 stabilizes Aurora B in cells, a known substrate of the APC/C-CDH1 E3 ubiquitin ligase, before their entry into mitosis. Altogether, our data identify and establish the USP13-CDH1-Aurora B axis as a new regulatory module required for flawless cell cycle progression in mammalian cells, whose misfunction may be involved in the rewiring of cell cycle pathways linked to cancer development.

Automated summary

The study reveals the interplay between USP13 and CDH1, showing that USP13 can stabilize CDH1 levels. Furthermore, it establishes the USP13-CDH1-Aurora B axis as a new regulatory module essential for flawless cell cycle progression in mammalian cells.