Overexpression of PDR16 confers resistance to complex sphingolipid biosynthesis inhibitor aureobasidinA in yeast Saccharomyces cerevisiae

Abstract

Sphingolipids are essential for normal cell growth of yeast Saccharomyces cerevisiae. AureobasidinA (AbA), an antifungal drug, inhibits Aur1, an enzyme catalysing the synthesis of inositolphosphorylceramide, and induces a strong growth defect in yeast. In this study, we screened for multicopy suppressor genes that confer resistance to AbA, and identified PDR16. In addition, it was found that PDR17, a paralog of PDR16, also functions as a multicopy suppressor. Pdr16 and Pdr17 belong to a family of phosphatidylinositol transfer proteins; however, cells overexpressing the other members of the family hardly exhibited resistance to AbA. Overexpression of a lipid-binding defective mutant of Pdr16 did not confer the resistance to AbA, indicating that the lipid-binding activity is essential for the acquirement of resistance to AbA. When expression of the AUR1 gene was repressed by a tetracycline-regulatable promoter, the overexpression of PDR16 or PDR17 did not suppress the growth defect caused by the AUR1 repression. Quantification analysis of complex sphingolipids revealed that in AbA-treated cells, but not AUR1-repressed cells by the tetracycline-regulatable promoter, the reductions of complex sphingolipid levels were suppressed by the overexpressed PDR16. Thus, it was indicated that the overexpression of PDR16 reduces the effectiveness of AbA against intracellular Aur1 activity.