USP15-dependent lysosomal pathway controls p53-R175H turnover in ovarian cancer cells

Gain-of-function p53 mutants such as p53-R175H form stable aggregates that accumulate in cells and play an important role in cancer progression. Selective degradation of gain-of-function p53 mutants has emerged as a highly attractive therapeutic strategy to target cancer cells harboring specific p53 mutations. We identified a small molecule called MCB-613 to cause rapid ubiquitination, nuclear export, and degradation of p53-R175H through lysosome-mediated pathway leading to catastrophic cancer cell death. In contrast to its effect on the p53-R175H mutant, MCB-613 causes slight stabilization of p53-WT and has weaker effects on other p53 gain-of-function mutants. Using state-of-the-art genetic and chemical approaches, we identified the deubiquitinase USP15 as the mediator of MCB-613’s effect on p53-R175H and established USP15 as a selective upstream regulator of p53-R175H in ovarian cancer cells. These results confirm that distinct pathways regulate the turnover of p53-WT and the different p53 mutants and open new opportunities to selectively target them. Comparison between the RNAseq data between NSC632839 (a deubiquitinase inhibitor) treated and MCB613 treated MCF7 breast cancer cell