Objectives: The uptake of endogenous sterol from serum may allow Candida glabrata to survive azole treatment. This study aims to determine the contribution of a sterol transporter that alters fluconazole sensitivity in the presence of serum.
Methods: Bioinformatic analysis predicted CgAUS1 as the C. glabrata orthologue of the Saccharomyces cerevisiae transporters AUS1 and PDR11. To investigate whether the CgAUS1 gene has sterol transporter activity, we investigated the effects of an AUS1 deletion on the growth of a tetracycline-regulatable ERG9 strain (tet-ERG9aus1), wherein ERG9 expression is turned off giving rise to a sterol requirement. Tetracycline-dependent repression of CgAUS1 in the tet-AUS1 strain was used to determine the fluconazole susceptibility of CgAUS1 in the presence and absence of serum.
Results: The tetracycline-treated tet-ERG9aus1 strain failed to grow in the presence of serum, whereas the parental tet-ERG9AUS1 strain grew by incorporating sterol from exogenously supplied serum. Serum cholesterol protected cells against the antifungal effects of fluconazole and this protection was lost by repressing CgAUS1 gene expression. Furthermore, such protection was also observed during itraconazole treatment, but not observed in cells treated with non-azole antifungals.
Conclusions: CgAUS1 appears to function as a sterol transporter that may contribute to lower azole susceptibility in the presence of serum and to protect C. glabrata against azole toxicity in vivo.
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