Functional analysis of selected deletion mutants in Candida glabrata under hypoxia.

Abstract

Increased drug resistance in Candida glabrata (a model non-albicans Candida) calls for the identification of potential molecular targets for the development of effective drugs. Hypoxia (a state of low oxygen) is an important host factor, which affects the virulence of the pathogen and efficacy of drugs. In the present study, in vitro characterization of 13 null mutants of C. glabrata were done under hypoxic condition (1% O2). These mutants have a major role to play in cellular pathways, viability and pathogenesis (cell wall biosynthesis, ergosterol synthesis, calcium-calcineurin, etc.). The in vitro growth, biofilm formation and susceptibility of biofilm to antifungal drugs of these mutants were compared with the control. Hypoxia reduced the susceptibility of planktonic cells to fluconazole. The mutants ecm33Δ, kre1Δ, rox1Δ, and kre2Δ showed maximum reductions in their biofilm activities (>20%). The selected mutants (upc2BΔ, kre2 Δ, ecm7Δ, rox1 Δ, mid1Δ, ecm33Δ, cch1Δ, kre1Δ) showed reduced biofilm activities (>30%) in the presence of 16μgml-1 fluconazole under hypoxia. Functional analysis revealed that Kre1, Ecm33, Upc2B, Kre2, Ecm7, Cch1, Mid1 and Rox1 can be explored as a potential drug target for developing novel antifungal drugs.