Abstract Methylthioadenosine phosphorylase (MTAP) loss, due to focal homozygous deletions in chromosome 9 (9p21.3), occurs in over 25% of urothelial carcinoma and is an adverse prognostic factor for overall survival. Furthermore, MTAP-deleted tumors are associated with a “cold” tumor immune microenvironment and are resistant to immune checkpoint inhibitor therapy. Loss of MTAP confers a dependency on methionine adenosyltransferase 2A (MAT2A), which catalyzes the production of the primary methyl donor for all cellular methyltransferase reactions, S-adenosyl methionine (SAM). IDE397, a potent small molecule inhibitor of MAT2A, was developed to selectively exploit this synthetic lethal vulnerability in MTAP −/− tumors. The accumulation of the metabolite MTA in MTAP −/− tumors combined with a reduction of SAM by MAT2A inhibition results in selective inhibition of PRMT5, a methyltransferase that governs spliceosome fidelity. This triggers pre-mRNA splicing defects that may induce RNA polymerase stalling and can cause R-loop accumulation. Furthermore, due to essential roles in 1-carbon metabolism, MAT2A inhibition together with MTAP loss leads to depletion of metabolites required for both de novo and salvage nucleotide biosynthesis, thus preventing effective management of DNA replication and DNA damage repair. Notably, R-loops must be resolved by topoisomerase activity (TOP1) to prevent replication conflict and mitotic catastrophe. These combinatorial mechanistic relationships underpin a hypothesis that dual inhibition of MAT2A and TOP1 will fully capitalize on the synthetic lethal vulnerabilities associated with MTAP loss in urothelial cancers (replication stress, genomic instability). Consistent with this, IDE397 in combination with TOP1 inhibitors demonstrated synergistic combination benefit in MTAP −/− bladder cancer cell lines in vitro and in cell-line derived xenograft (CDX) models in vivo. IDE397 exposure was associated with heavily disordered methionine metabolism and accumulation of DNA damage response intermediates. In the ongoing Phase 1 dose escalation/expansion study of IDE397 in MTAP −/− solid tumors (NCT04794699), measurable tumor shrinkage has been observed in urothelial cancers (including a CR per RECIST 1.1) along with molecular responses on serial ctDNA measurements. Supported by our preclinical data, and the clinical observation that MTAP −/− urothelial cancers may be more sensitive to sacituzumab govitecan (SG); a TROP-2-targeting TOP1 ADC (UNITE study; JCO.2023.41.16_suppl.4572), a combination of SG+IDE397 could represent a novel early-line therapy for these patients with high unmet need. We plan to evaluate the combination of SG+IDE397 in MTAP-/- urothelial cancers in the next stage of the ongoing IDE397 trial (NCT04794699). Citation Format: Claire L. Neilan, Marcus M. Fischer, Damien Garbett, Arjun A. Rao, Mili Mandal, Michael A. White, Jasgit C. Sachdev. The MAT2A inhibitor IDE397: a novel combination backbone for urothelial cancer subjects with MTAP deficiency [abstract]. In: Proceedings of the AACR Special Conference on Bladder Cancer: Transforming the Field; 2024 May 17-20; Charlotte, NC. Philadelphia (PA): AACR; Clin Cancer Res 2024;30(10_Suppl):Abstract nr B027.
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