The short-chain fatty acid crotonate reduces invasive growth and immune escape of by regulating hyphal gene expression.

Macrophages curtail the proliferation of the pathogen within human body niches. Within macrophages, adapts its metabolism and switches to invasive hyphal morphology. These adaptations enable fungal growth and immune escape by triggering macrophage lysis. Transcriptional programs regulate these metabolic and morphogenetic adaptations. Here we studied the roles of chromatin in these processes and implicate lysine crotonylation, a histone mark regulated by metabolism, in hyphal morphogenesis and macrophage interactions by . We show that the short-chain fatty acid crotonate increases histone crotonylation, reduces hyphal formation within macrophages, and slows macrophage lysis and immune escape of . Crotonate represses hyphal gene expression, and we propose that uses diverse acylation marks to regulate its cell morphology in host environments. Hyphal formation is a virulence property of . Therefore, a further importance of our study stems from identifying crotonate as a hyphal inhibitor.