Ubiquitin receptors play redundant roles in the proteasomal degradation of the p53 repressor MDM2

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Abstract

Much remains to be determined about the participation of ubiquitin receptors in proteasomal degradation and their potential as therapeutic targets. Suppression of the ubiquitin receptor S5A/PSMD4/hRpn10 alone stabilises p53/TP53 but not the key p53 repressor MDM2. Here, we observed S5A and the ubiquitin receptors ADRM1/PSMD16/hRpn13 and RAD23A and B functionally overlap in MDM2 degradation. We provide further evidence that degradation of only a subset of ubiquitinated proteins is sensitive to S5A knockdown because ubiquitin receptor redundancy is commonplace. p53 can be upregulated by S5A modulation while degradation of substrates with redundant receptors is maintained. Our observations and analysis of Cancer Dependency Map (DepMap) screens show S5A depletion/loss substantially reduces cancer cell line viability. This and selective S5A dependency of proteasomal substrates make S5A a target of interest for cancer therapy.

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Sparks, A., Kelly, C. J., & Saville, M. K. (2022). Ubiquitin receptors play redundant roles in the proteasomal degradation of the p53 repressor MDM2. FEBS Letters, 596(21), 2746–2767. https://doi.org/10.1002/1873-3468.14436

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