Link to bioRxiv paper:
http://biorxiv.org/cgi/content/short/2023.02.06.527237v1?rss=1

Authors: Chen, S.-H., Prakash, S., Helgason, E., Gilchrist, C. L., Kenner, L. R., Srinivasan, R., Sterne-Weiler, T., Hafner, M., Piskol, R., Dueber, E. C., Hamidi, H., Endres, N., Ye, X., Fairbrother, W. J., Wertz, I. E.

Abstract:
Modulation of proteolysis is an emerging therapeutic mainstay. The clinical success of thalidomide and analogs has inspired development of rationally-designed therapeutics that repurpose endogenous degradation machinery to target pathogenic proteins. However, it is unknown whether target removal is the critical effect that drives degrader-induced efficacy. Here we report that proteasome-generated peptides actively initiate degrader-induced cell death. Utilizing BET family degraders as exemplars, we find that induced proteasomal degradation of the BRD4-long isoform (BRD4-L) generates neo-amino-terminal peptides that neutralize Inhibitor of Apoptosis (IAP) proteins to precipitate cell death. Depletion of BRD4-L paradoxically suppresses caspase activation induced by numerous BET degraders. An unbiased screen revealed that other degrader compounds, including clinical CELMoDs, rely on the same mechanism to potentiate caspase activation and apoptosis. Finally, in the context of constitutive immunoglobulin proteostasis within multiple myeloma cells, we report that therapeutic proteasomal protease inhibition alters the peptide repertoire to neutralize IAPs, thus contributing to the clinical efficacy of bortezomib. Together, these findings clarify the counterintuitive clinical benefit achieved by combining thalidomide analogs with proteasome inhibitors. Our study reveals a previously unrealized pro-apoptotic function of the peptides generated by a variety of proteolysis-modulating compounds, that provide design considerations to maximize therapeutic benefit.

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