Multiple myeloma (MM) is an incurable malignant hematological neoplasm characterized by clonal proliferation of plasma cells accumulating in the bone marrow. Currently, the treatment of MM is usually based on a multi-drug combination strategy, and the remission rates of MM patients have been greatly improved. However, MM is still not immune to drug resistance and recurrence and is an incurable tumor. In this study, a comprehensive screen of the TCA cycle identified oxoglutarate dehydrogenase (OGDH) and pyruvate dehydrogenase E1 subunit alpha 1 (PDHA1) as the most clinically relevant genes in MM, highlighting their potential as therapeutic targets. CPI-613, a novel non-redox-active lipoic acid analog that causes mitochondrial metabolism dysfunction by targeting OGDH and PDHA1, is currently in clinical trials in a variety of malignancies. In our study, CPI-613 was found to inhibit the proliferation of MM cells, and its combination with bortezomib (BTZ) produced a significant inhibitory effect at lower doses. In addition, CPI-613 can disrupt various mitochondrial functions, such as disrupting mitochondrial morphology, reducing oxidative phosphorylation, decreasing 5'- adenylate triphosphate production, and increasing reactive oxygen species, which ultimately leads to cell death mediated by the intrinsic apoptotic pathway in vitro. Furthermore, we found CPI-613 significantly inhibited tumor growth and induced intrinsic apoptosis in the MM mouse xenograft model. This study reveals the mechanism and effect of CPI-613 in MM, which suggests that CPI-613 may be a new drug option for the clinical treatment of MM, but further clinical trials are needed for evaluation.
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