EXTH-38. VELCRIN MOLECULAR GLUES INDUCE CELL DEATH IN GLIOBLASTOMAS WITH HIGH PDE3A AND SLFN12 EXPRESSION

Abstract

Abstract Velcrins are molecular glues that kill cells by inducing the formation of a protein complex between the RNase, SLFN12, and the phosphodiesterase, PDE3A. Formation of the complex activates SLFN12, which cleaves tRNALeu(TAA) and induces apoptosis. Velcrins such as the clinical investigational compound, BAY 2666605, were found to have activity across multiple solid tumor cell lines from the Cancer Cell Line Encyclopedia (CCLE), including glioblastoma cell lines. We therefore aimed to characterize velcrins as novel therapeutic agents in glioblastoma. We measured PDE3A and SLFN12 expression levels in commercially available glioblastoma cells as well as glioblastoma neurospheres from the Center for Patient Derived Models at Dana Farber Cancer Institute. We identified velcrin-sensitive glioblastoma cell lines and neurospheres, and determined that velcrin response is highly correlated with PDE3A expression. We also determined that sensitive cells exhibit a reduction in nascent polypeptide formation upon velcrin treatment, which is rescued by CRISPR-induced knockout of PDE3A. To assess velcrin efficacy in vivo, we measured central nervous system and plasma levels of the velcrin, BAY 2666605, and determined that it freely crosses the blood brain barrier. We also determined that twice daily dosing of BAY 2666605 elicits full tumor regression in an orthotopic glioblastoma xenograft model, with sustained complete responses after treatment withdrawal. Lastly, we demonstrated that the velcrins BAY 2666605 and BAY 2501293 induce tumor regression in biomarker-positive subcutaneous glioblastoma patient-derived xenograft models. In summary, our data demonstrates that velcrins have anti-tumor activity in preclinical models of glioblastoma, warranting further investigation as potential therapeutic agents.