Metabolic adaptations underpin resistance to histone acetyltransferase inhibition

Abstract: Histone acetyltransferases (HAT) catalyze the acylation of lysine side chains and are implicated in diverse human cancers as both oncogenes and non-oncogene dependencies1. Acetyl-CoA-competitive HAT inhibitors have garnered attention as potential cancer therapeutics and the first clinical trial for this class is ongoing (NCT04606446). Despite broad enthusiasm for these targets, notably including CBP/p300 and KAT6A/B2-5, the potential mechanisms of therapeutic response and evolved drug resistance remain poorly … Show more