Ubiquitin receptor PSMD4/Rpn10 is a novel therapeutic target in multiple myeloma

Ting Du, Yan Song, Arghya Ray, Xueping Wan, Yao Yao, Mehmet K. Samur, Chen Shen, Johany Penailillo, Tomasz Sewastianik, Yu Tzu Tai, Mariateresa Fulciniti, Nikhil C. Munshi, Hao Wu, Ruben D. Carrasco, Dharminder Chauhan, Kenneth C. Anderson

Research output: Contribution to journalArticlepeer-review

10 Scopus citations

Abstract

PSMD4/Rpn10 is a subunit of the 19S proteasome unit that is involved with feeding target proteins into the catalytic machinery of the 26S proteasome. Because proteasome inhibition is a common therapeutic strategy in multiple myeloma (MM), we investigated Rpn10 and found that it is highly expressed in MM cells compared with normal plasma cells. Rpn10 levels inversely correlated with overall survival in patients with MM. Inducible knockout or knockdown of Rpn10 decreased MM cell viability both in vitro and in vivo by triggering the accumulation of polyubiquitinated proteins, cell cycle arrest, and apoptosis associated with the activation of caspases and unfolded protein response-related pathways. Proteomic analysis revealed that inhibiting Rpn10 increased autophagy, antigen presentation, and the activation of CD4+ T and natural killer cells. We developed an in vitro AlphaScreen binding assay for high-throughput screening and identified a novel Rpn10 inhibitor, SB699551 (SB). Treating MM cell lines, leukemic cell lines, and primary cells from patients with MM with SB decreased cell viability without affecting the viability of normal peripheral blood mononuclear cells. SB inhibited the proliferation of MM cells even in the presence of the tumor-promoting bone marrow milieu and overcame proteasome inhibitor (PI) resistance without blocking the 20S proteasome catalytic function or the 19S deubiquitinating activity. Rpn10 blockade by SB triggered MM cell death via similar pathways as the genetic strategy. In MM xenograft models, SB was well tolerated, inhibited tumor growth, and prolonged survival. Our data suggest that inhibiting Rpn10 will enhance cytotoxicity and overcome PI resistance in MM, providing the basis for further optimization studies of Rpn10 inhibitors for clinical application.

Original languageEnglish
Pages (from-to)2599-2614
Number of pages16
JournalBlood
Volume141
Issue number21
DOIs
StatePublished - May 25 2023

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