Abstract 4964: SW-682: A novel TEAD inhibitor for the treatment of cancers bearing mutations in the Hippo signaling pathway

Abstract

Abstract Many cancers harbor mutations in the Hippo pathway that lead to constitutive activation of the transcriptional co-activators YAP/TAZ that then bind the transcription factor TEAD and drive aberrant transcription of target genes involved in cell proliferation and tumor progression. Hyperactivation of YAP/TAZ has also been associated with resistance to targeted therapies, including MAPK pathway inhibitors. To target cancers that bear mutations in the Hippo pathway or are resistant to therapies due to YAP/TAZ activation, we developed SW-682, a pan-TEAD small molecule inhibitor that blocks TEAD-dependent transcription by binding to the palmitoylation pocket of all TEAD isoforms. In vitro, SW-682 inhibited the proliferation of human Hippo-mutant mesothelioma cells with nanomolar potency, with little to no effect on Hippo wild-type tumor cells. SW-682 down-regulated TEAD-dependent reporter gene expression in a dose-dependent manner, while having no effect on reporters monitoring other pathways. In vivo, daily oral administration of SW-682 to adult mice resulted in tumor regression in Hippo-mutant mesothelioma models and caused down-regulation of expression of the TEAD-dependent genes CCN1 and CCN2 and a YAP gene signature, as measured by qPCR or RNA-seq analysis. SW-682 has a favorable PK profile with good oral bioavailability in the mouse and was well tolerated with no signs of body weight loss. To test the hypothesis that TEAD inhibition can overcome YAP-driven resistance mechanisms, we explored SW-682 in combination with MEK inhibitors in several in vitro and ex vivo patient-derived tumor models including BRAF and NRAS mutated melanoma. Moreover, to identify new indications that may benefit from TEAD inhibition, we screened patient-derived 3D organoid tumor cells and matching patient-derived xenograft models that have been molecularly profiled. In summary, SW-682 is a potent and selective investigational TEAD inhibitor which demonstrated anti-tumor effects in models harboring aberrant expression of the Hippo pathway, suggesting therapeutic potential in multiple Hippo-mutant solid tumors. Citation Format: Lei Chen, Paula Milani de Marval, Kendall Powell, Mark Johnson, Greg Falls, Brian Lawhorn, Aurélie Candi, Amuri Kilonda, Bart Vanderhoydonck, Arnaud Marchand, Matthias Versele, Georg Halder, Stephen L. Gwaltney, Adeela Kamal. SW-682: A novel TEAD inhibitor for the treatment of cancers bearing mutations in the Hippo signaling pathway. [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2023; Part 1 (Regular and Invited Abstracts); 2023 Apr 14-19; Orlando, FL. Philadelphia (PA): AACR; Cancer Res 2023;83(7_Suppl):Abstract nr 4964.