Abstract 2715: Deciphering a metabolic basis for single-agent venetoclax efficacy in t(11;14) multiple myeloma

Abstract

Abstract Multiple myeloma (MM) is the second most common hematologic malignancy. In 2017, MM accounted for approximately 30,770 new diagnoses and 12770 deaths in the US. Although, advancements in treatment options have increased survival rates and life expectancy, MM remains incurable due to development of resistance. Venetoclax is a highly selective, potent BCL-2 antagonist, currently in phase I/II trials for MM and FDA approved for the treatment of CLL patients exhibiting 17p deletion. Venetoclax is effective in eliciting cell death as a single agent in a subset of MM with the (11;14) translocation (which we henceforth designate “sensitive”) in contrast to the majority of MM that is resistant (which we henceforth designate “resistant”). We previously reported that glutamine deprivation increases BIM binding to BCL-2 thereby sensitizing MM to venetoclax, while alpha-ketoglutarate supplementation reversed this sensitivity. We were therefore interested to explore if there was a metabolic basis for t(11;14)-myeloma sensitivity to single agent venetoclax to aid in 1) identifying venetoclax sensitive MM and; 2) inform us of metabolic targets that could be inhibited to sensitize resistant MM to venetoclax. We first queried the CoMMpass MM patient RNAseq trial data and cell lines for electron transport chain (ETC) and TCA cycle gene expression differences in t(11;14) vs non-t(11;14) patients and cell lines. All sensitive cells exhibited varied suppression of TCA/ETC genes, and reduced TCA cycle metabolites and oxygen consumption rates (OCR) compared to resistant cells. Examination of TCA cycle activities connected to the ETC and OCR showed significant decrease in Complex II Succinate ubiquinone reductase (SQR) activity in sensitive cell lines and purified CD38+ve MM patient cells and elevated SQR activity in resistant cells. Furthermore, inhibition of SQR with thenoyltrifluoroacetone (TTFA) sensitized resistant cells to venetoclax. Consistent with SQR inhibition leading to ABT-199 sensitivity, overexpression of an SQR mutant (SDHCR72C) in SDHC-knockout resistant MM, increased venetoclax sensitivity, identifying a unique role for SQR in regulating BCL-2 dependence. In interrogating the mechanistic underpinnings of SQR inhibition-induced sensitivity to venetoclax, we identified increased expression of ATF4 and BIM upon SQR inhibition. ATF4KD or BIMKO restored viability in TTFA and venetoclax co-treated MM further confirming the role of SQR inhibition-induced ATF4 and BIM in venetoclax sensitivity. In testing translationally relevant compounds, we determined that the histone deacetylase inhibitor, panobinostat reduced SQR activity in a dose dependent manner and sensitized MM cells to venetoclax. Our study thus identifies SQR as a novel target and predictive marker to aid in identifying ABT-199-responsive MM patients in a functional biomarker informed manner. Citation Format: Richa Bajpai, Abhinav Achreja, Changyong Wei, Arusha Siddiqa, Shannon M. Matulis, Vikas Gupta, Samuel K. McBrayer, Anjali Mittal, Manali Rupji, Hsiao-Rong Chen, Jeanne Kowalski, Sagar Lonial, Ajay K. Nooka, Lawrence H. Boise, Deepak Nagrath, Mala Shanmugam. Deciphering a metabolic basis for single-agent venetoclax efficacy in t(11;14) multiple myeloma [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2019; 2019 Mar 29-Apr 3; Atlanta, GA. Philadelphia (PA): AACR; Cancer Res 2019;79(13 Suppl):Abstract nr 2715.