Abstract
Candida auris, a decade old Candida species, has been identified globally as a significant nosocomial multidrug resistant (MDR) pathogen responsible for causing invasive outbreaks. Biofilms and overexpression of efflux pumps such as Major Facilitator Superfamily and ATP Binding Cassette are known to cause multidrug resistance in Candida species, including C. auris. Therefore, targeting these factors may prove an effective approach to combat MDR in C. auris. In this study, 25 clinical isolates of C. auris from different hospitals of South Africa were used. All the isolates were found capable enough to form biofilms on 96-well flat bottom microtiter plate that was further confirmed by MTT reduction assay. In addition, these strains have active drug efflux mechanism which was supported by rhodamine-6-G extracellular efflux and intracellular accumulation assays. Antifungal susceptibility profile of all the isolates against commonly used drugs was determined following CLSI recommended guidelines. We further studied the role of farnesol, an endogenous quorum sensing molecule, in modulating development of biofilms and drug efflux in C. auris. The MIC for planktonic cells ranged from 62.5-125 mM, and for sessile cells was 125 mM (4h biofilm) and 500 mM (12h and 24h biofilm). Furthermore, farnesol (125 mM) also suppresses adherence and biofilm formation by C. auris. Farnesol inhibited biofilm formation, blocked efflux pumps and downregulated biofilm- and efflux pump- associated genes. Modulation of C. auris biofilm formation and efflux pump activity by farnesol represent a promising approach for controlling life threatening infections caused by this pathogen.
Highlights
Candida auris has well evolved multidrug resistant (MDR) pathogen, which has caused serious outbreaks in several continents
After biofilm formation 50 μl of 5mg/ml MTT solution was added to each well of the 96-well flat bottom microtiter plate and was Farnesol inhibits pathogenicity markers in C. auris incubated at 37 ̊C for 5h
Lower susceptibility of C. auris isolates against amphotericin B (AmB) is in agreement with previous studies, where high AmB MICs for C. auris isolates were reported [33,34,35]
Summary
Candida auris has well evolved MDR pathogen, which has caused serious outbreaks in several continents. We emphasized to study the effect of farnesol on growth, biofilms and reversal of drug resistance in different C. auris isolates.
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