The enhancer lysine acetyltransferases CBP/p300 are compelling targets for multiple myeloma therapy. Chemical inhibition of these multidomain factors, either through the bromodomain or the catalytic acetyltransferase domain, show promising activity in pre-clinical models. Chemical degradation is the only modality that can completely disrupt all functional domains. Our previous attempts to induce CBP/p300 targeted degradation led to a potent tool compound, dCBP-1. Here we comprehensively demonstrate across a large panel of cell lines how CBP/p300 degradation compares to inhibition, with pronounced selective antiproliferative activity toward multiple myeloma. We use chemical linker optimization strategies to create a compound with better pharmacokinetic properties. Through these we define an advanced analog of dCBP-1, dCBP-30, that has improved potency and improved in vivo properties including oral bioavailability. dCBP-30 led to potent and sustained loss of CBP and p300, potent inhibition of several myeloma-specific dependency programs, and elicits tumor reduction in xenograft models.
Tiwari et al. (Mon,) studied this question.