MDB-37. RAC1 INHIBITION FOR THE TREATMENT OF MEDULLOBLASTOMA

Abstract

Abstract Despite considerable advances in identifying genetic and epigenetic abnormalities in medulloblastoma, many patients succumb to the disease. In addition, patients who respond to traditional therapy suffer from cognitive and intellectual deficits. Therefore, there is a dire need to identify novel therapies for treating medulloblastoma. Rho family GTPases are targets in multiple cancers including medulloblastoma. Rho, Rac1 and Cdc42 are essential mediators of cell-cell adhesion and cellular motility signaling, which are dysregulated in medulloblastoma. These GTPases are involved in the regulation of the cytoskeleton, cell migration, cellular proliferation, and developmental signaling. The small GTPase Rac1 has recently been reported as a possible therapeutic target in SHH-medulloblastoma due to its regulation of Hedgehog signaling via the GLI1 and GLI2 transcription factors. We have recently reported that GLI1/GLI2 are in a novel complex that contains the epigenetic regulators UHRF1 and DNMT1. Therefore, Rac1 may play a previously unappreciated role in epigenetic regulation of medulloblastoma by controlling the GLI1/GLI2/UHRF1/DNMT1 complex. To test this, we have utilized a novel brain penetrant Rac1 inhibitor termed GYS32661. GYS32661 treatment of medulloblastoma cells inhibits the GLI1-UHRF1 interaction. Importantly this inhibition of the interaction occurs rapidly suggesting that it is disrupting an early event in SHH signaling. GYS32661 also inhibits actin polymerization suggesting that utilizing this compound may provide a dual mechanism of inhibiting Shh signaling and cellular migration concurrently. GYS32661 is not toxic in animal models and is approximately 50% brain penetrant and therefore is an important clinical candidate for the treatment of medulloblastoma. Our studies identify an essential link between Rac1, Shh signaling, epigenetics, and cellular migration in medulloblastoma.