The Candida albicans commensal program
University Of California, San Francisco, San Francisco CA
Investigators
Linked publications & trials
Abstract
DESCRIPTION (provided by applicant): We seek to understand the molecular mechanisms of commensalism in Candida albicans, a normal component of the human microbiome as well as the most common cause of devastating fungal infections. Studies of C. albicans strains recovered from patients with Candida disease syndromes have demonstrated that the vast majority of disseminated infections arise from patients' own commensals (Odds et al., 2006). However, we have scant understanding of the molecular basis of commensalism or the commensal-to-pathogen transition. We recently generated two large collections of more than 750 homozygous gene deletion mutants of this obligate diploid organism (Homann et al., 2009) (Noble et al., 2010). By means of a genetic screen of the mutants in a mouse model of bloodstream infection, we identified multiple novel virulence factors including a fungal-specific sphingolipid (Noble et al., 2010) and a novel transcriptional activator of iron uptake genes (Chen, Pande et al., submitted). We now propose to use the same genetic resource to screen for commensalism factors in a mouse model of gastrointestinal commensalism. To this end, our pilot studies have already revealed a novel opaque- independent role for master regulator of the white-to-opaque phenotypic transition, Wor1, in promoting commensal infections of the gut. We hypothesize that C. albicans possesses distinct genetic programs for commensalism and virulence, and comparison of the results from the commensalism and virulence screens will directly test this hypothesis. The results will significantly enhance an understudied area research and promise to reveal opportunities for prevention and treatment of highly morbid of C. albicans infections.
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