Abstract 1230: MTX-531, a first-in-class pan-PI3K inhibitor spares hyperinsulinemia yielding durable tumor regressions and resilience to adaptive resistance

Abstract

Abstract Adaptive resistance mechanisms compromise the long-term effectiveness of kinase-targeted agents dictating the need for strategic combination approaches. MTX-531 was computationally designed to selectively target both PI3K and wild type EGFR. MTX-531 exhibits low nanomolar potency against the PI3K isoform family and EGFR with a high degree of specificity predicted by co-crystal structural analyses. Full kinome screening confirmed that MTX-531 is exquisitely selective for its intended targets. We evaluated the pharmacological profile of MTX-531, whereupon single agent treatment with this lead molecule elicited a high incidence of durable tumor regressions in a broad panel of PIK3CA mutant CDX and PDX squamous head and neck (HNSCC) models. The combination of MTX-531 with RAS pathway inhibitors, including agents directed against KRAS G12C, led to durable regressions of KRAS mutant colorectal and pancreatic xenografts, resulting in striking increases in median survival. MTX-531 is exceptionally well tolerated in mice and uniquely does not lead to hyperglycemia and hyperinsulinemia commonly seen with predecessor pan PI3K inhibitors. MTX-531 acts as an agonist of PPARγ, a structural feature of the molecule that is thought to mitigate hyperglycemia induced by PI3K inhibition. This unique attribute of MTX-531 confers a favorable therapeutic index not typically seen with PI3K inhibitors. To the best of our knowledge, MTX-531 is the first reported pan-PI3K inhibitor that does not lead to hyperglycemia. The pharmaceutical profile of MTX-531 includes favorable cross-species oral bioavailability, microsomal stability, and a facile 3 step chemical synthesis. MTX-531, which has the unique capability of concurrently and selectively inhibiting PI3K and EGFR, illustrates the power of rational computational drug design to target multiple adaptive resistance mechanisms in a single molecule. The versatility of MTX-531 in both the single agent and combination settings offers a breadth of development strategies that continue to evolve as new combination candidates become available. MTX-531 is currently undergoing advanced preclinical development for anticipated first in human clinical trials in late 2024. Citation Format: Christopher E. Whitehead, Elizabeth K. Ziemke, Christy L. Frankowski-McGregor, Rachel A. Mumby, June Chung, Jinju Li, Nathaniel Osher, Oluwadara Coker, Michelle Norris, Scott Kopetz, Veera Baladandayuthapani, Melinda Hollingshead, Sharad Verma, Judith S. Sebolt-Leopold. MTX-531, a first-in-class pan-PI3K inhibitor spares hyperinsulinemia yielding durable tumor regressions and resilience to adaptive resistance [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2024; Part 1 (Regular Abstracts); 2024 Apr 5-10; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2024;84(6_Suppl):Abstract nr 1230.