Abstract

Abstract Despite initial responsiveness to standard treatments like radiation and chemotherapy, IDH mutant gliomas inevitably recur, become more clinically aggressive, and lead to untimely death. The aggressive change in clinical outcome is driven by insensitivity to conventional methods of treatment, necessitating an improved therapeutic strategy at this stage of the disease. Greater than 20% of recurrent IDH mutant gliomas exhibit homozygous loss of CDKN2A, leading to the loss of the endogenous CDK4/6 inhibitor p16 and aberrant signaling through the CDK-RB pathway. We hypothesized that CDKN2A loss leads to enhanced sensitivity to CDK4/6 inhibitors which have been approved for use in a variety of other cancer types. We examined the sensitivity of a panel of patient-derived IDH mutant gliomas with either endogenous CDKN2A loss or CRISPR-mediated gene deletion to treatment with CDK4/6 inhibitors. We observed a correlation between CDKN2A loss and enhanced cytotoxicity following abemaciclib treatment in these glioma models. We have characterized the cell cycle profile following abemaciclib treatment by flow cytometry and western blotting in both sensitive and resistant lines. Further, abemaciclib treatment resulted in significant slowing of tumor growth rate in a subcutaneous patient-derived IDH mutant glioma model. Survival studies in an intracranial model are ongoing. These preclinical results provide foundational data to support a biomarker-driven clinical trial of CDK4/6 inhibitors in patients with recurrent IDH mutant glioma.

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