Abstract
The fungus Candida glabrata is an important and increasingly common pathogen of humans, particularly in immunocompromised hosts. Despite this, little is known about the attributes that allow this organism to cause disease or its interaction with the host immune system. However, in common with other fungi, the cell wall of C. glabrata is the initial point of contact between the host and pathogen, and as such, it is likely to play an important role in mediating interactions and hence virulence. Here, we show both through genetic complementation and polysaccharide structural analyses that C. glabrata ANP1, MNN2, and MNN11 encode functional orthologues of the respective Saccharomyces cerevisiae mannosyltransferases. Furthermore, we show that deletion of the C. glabrata Anp1, Mnn2, and Mnn11 mannosyltransferases directly affects the structure of the fungal N-linked mannan, in line with their predicted functions, and this has implications for cell wall integrity and consequently virulence. C. glabrata anp1 and mnn2 mutants showed increased virulence, compared with wild-type (and mnn11) cells. This is in contrast to Candida albicans where inactivation of genes involved in mannan biosynthesis has usually been linked to an attenuation of virulence. In the long term, a better understanding of the attributes that allow C. glabrata to cause disease will provide insights that can be adopted for the development of novel therapeutic and diagnostic approaches.
Highlights
Candida glabrata virulence is poorly understood at the molecular level
ANP1, MNN2, and MNN11 Gene Functions Are Conserved between C. glabrata and S. cerevisiae—To determine whether C. glabrata ANP1, MNN2, and MNN11 encode functional homologues of the S. cerevisiae ␣-(1– 6)-mannosyltransferases (Anp1 and Mnn11) and ␣-(1–2)-mannosyltransferase (Mnn2), we conducted a series of cross-complementation experiments
Complementation analyses showed that the C. glabrata ANP1, MNN2, and MNN11 encode functional homologues of the respective S. cerevisiae proteins
Summary
Candida glabrata virulence is poorly understood at the molecular level. Results: Inactivation of components of the C. glabrata glycosylation machinery results in changes in fungal mannan structure and altered virulence. In common with other fungi, the cell wall of C. glabrata is the initial point of contact between the host and pathogen, and as such, it is likely to play an important role in mediating interactions and virulence. We show both through genetic complementation and polysaccharide structural analyses that C. glabrata ANP1, MNN2, and MNN11 encode functional orthologues of the respective Saccharomyces cerevisiae mannosyltransferases. We sought to determine the effect of inactivation of three putative components of the C. glabrata N-linked glycosylation machinery (Anp, Mnn, and Mnn11) on cell wall, mannan structure and virulence. Deletion of the genes differentially affects virulence, and this variability may be partially explained by resultant changes in cellular adhesion
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