Acetaldehyde inhibits the yeast-to-hypha conversion and biofilm formation in Candida albicans

In Candida albicans, alcohol metabolism is implicated in biofilm formation. The alcohol dehydrogenase gene (ADH1) is involved in the conversion of acetaldehyde to ethanol and reported to be downregulated during biofilm formation. C. albicans produces acetaldehyde under both in vivo and in vitro conditions. Mutations in ADH genes result in increased acetaldehyde production in vitro, but studies are lacking on the morphogenetic role(s) of acetaldehyde in C. albicans. We report here that acetaldehyde at a concentration of 7 mM was able to inhibit the conversion from yeast to hyphal forms induced by four standard inducers at 37°C. The hyphal inhibitory concentrations did not adversely affect the growth and viability of C. albicans cells. The same concentration of acetaldehyde also significantly inhibited biofilm development, and only adhered yeast cells were found. We hypothesize that acetaldehyde produced by C. albicans may exert a morphogenetic regulatory role influencing yeast-to-hypha conversion, biofilm formation, dissemination and establishment of infection.