Abstract
Candida albicans is a leading cause of fungal infections worldwide. It has several glycosylphosphatidylinositol (GPI)-anchored virulence factors. Inhibiting GPI biosynthesis attenuates its virulence. Building on our previous work, we explore the interaction of GPI biosynthesis in C. albicans with ergosterol biosynthesis and hyphal morphogenesis. This study is also the first report of transcriptional co-regulation existing between two subunits of the multisubunit enzyme complex, GPI-N-acetylglucosaminyltransferase (GPI-GnT), involved in the first step of GPI anchor biosynthesis in eukaryotes. Using mutational analysis, we show that the accessory subunits, GPI2 and GPI19, of GPI-GnT exhibit opposite effects on ergosterol biosynthesis and Ras signaling (which determines hyphal morphogenesis). This is because the two subunits negatively regulate one another; GPI19 mutants show up-regulation of GPI2, whereas GPI2 mutants show up-regulation of GPI19. Two different models were examined as follows. First, the two GPI-GnT subunits independently interact with ergosterol biosynthesis and Ras signaling. Second, the two subunits mutually regulate one another and thereby regulate sterol levels and Ras signaling. Analysis of double mutants of these subunits indicates that GPI19 controls ergosterol biosynthesis through ERG11 levels, whereas GPI2 determines the filamentation by cross-talk with Ras1 signaling. Taken together, this suggests that the first step of GPI biosynthesis talks to and regulates two very important pathways in C. albicans. This could have implications for designing new antifungal strategies.
Highlights
GPI anchor is essential for virulence of C. albicans
We show that the accessory subunits, GPI2 and GPI19, of GPI-GnT exhibit opposite effects on ergosterol biosynthesis and Ras signaling
We recently demonstrated in a couple of reports, for the very first time, one such regulation occurring via the Gpi19 accessory subunit of the GPI-GnT complex that catalyzes the first step of GPI biosynthesis in C. albicans [6, 7]
Summary
GPI anchor is essential for virulence of C. albicans. Little is known about its GPI biosynthetic pathway. We show that the accessory subunits, GPI2 and GPI19, of GPI-GnT exhibit opposite effects on ergosterol biosynthesis and Ras signaling (which determines hyphal morphogenesis). Analysis of double mutants of these subunits indicates that GPI19 controls ergosterol biosynthesis through ERG11 levels, whereas GPI2 determines the filamentation by cross-talk with Ras signaling. Taken together, this suggests that the first step of GPI biosynthesis talks to and regulates two very important pathways in C. albicans. We develop this theme further by examining the role of GPI2 (in both CAI4 as well as BWP17 strains of C. albicans), the gene encoding for another accessory subunit of the fungal GPI-GnT complex, and its effect on GPI biosynthesis, ergosterol biosynthesis, and filamentation. CAI4 CAI4-gpi2/GPI2 CAI4-gpi2/PMET3-GPI2 CAI4-gpi2/GPI2/PACT1-GPI2 CAI4-PACT1-GFP CAI4-gpi2/GPI2/PACT1-GFP CAI4-PACT1-GPI2 CAI4-gpi2/GPI2::gpi3/GPI3 BWP17 BWP17-gpi2/GPI2 BWP17-gpi2/PMET3-GPI2 BWP17-gpi2/GPI2/PACT1-GPI2 BWP17-gpi2/GPI2::gpi19/GPI19 BWP17-gpi2/GPI2::gpi15/GPI15 BWP17-gpi19/PMET3-GFP-GPI19 BWP17-gpi19/PMET3-GFP-GPI19::gpi2/GPI2 BWP17-erg11/ERG11 BWP17-gpi2/GPI2/PACT1-RAS1 BWP17-gpi19/PMET3-GFP-GPI19::ras1/RAS1 BWP17-ras1/ras1/PACT1-GFP BWP17-ras1/ras1/PACT1-GPI2 BWP17-ras2/ras2/PACT1-GFP BWP17-ras2/ras2/PACT1-GPI2
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