Abstract
We found that PSMD1, a key subunit of the 19S proteasome regulatory particle, was overexpressed and correlated with poor prognosis in multiple myeloma (MM). Genetic depletion of PSMD1 decreased cancer cell viability, induced polyubiquitinated protein accumulation, and promoted apoptosis. Proteomic analysis revealed the activation of immune-related pathways, suggesting the potential for immune modulation. Targeting PSMD1 with siRNA, delivered via lipid nanoparticles (LNPs), reduced tumor growth in MM cell lines and primary patient samples while sparing normal cells. It also overcame proteasome inhibitor resistance and the protective effects of the bone marrow milieu. In MM xenograft mouse models, PSMD1 siRNA LNPs significantly reduced tumor growth and prolonged survival. In addition, PSMD1 depletion had similar effects on other types of cancer cell lines. These findings position PSMD1 as a critical target in cancer therapy, with broad implications for overcoming drug resistance, improving therapeutic outcomes, and potentially impacting immune responses across various cancers. These findings provide a foundation for the clinical development of PSMD1-targeted therapies in myeloma and other malignancies.