Proteomic analysis of Mrr1p‐ and Tac1p‐associated differential protein expression in azole‐resistant clinical isolates of Candida albicans

Abstract

Azole resistance in Candida albicans is frequently caused by the overexpression of multi-drug efflux pump genes MDR1, CDR1, and CDR2 due to gain-of-function mutations in the zinc cluster transcription factors Mrr1p and Tac1p. In this study, we performed a comparative proteomic analysis to identify proteins whose expression level is influenced by these transcription factors. Both 2-DE and PMF were used to examine the expression profiles of six pairs of matched C. albicans isolates carrying gain-of-function mutations in either MRR1 or TAC1 resulting in the overexpression of either MDR1 or CDR1 and CDR2. Using this approach, 17 differentially expressed proteins were identified in the MDR1-overexpressing isolates, while 14 were identified in the isolates that overexpress CDR1 and CDR2. Furthermore, we found that the expression of many of these proteins was increased in a wild-type strain of C. albicans after the introduction of a gain-of-function allele of MRR1 or TAC1. Moreover, disruption of MRR1 and TAC1 in isolates carrying gain-of-function mutations resulted in decreased expression of these proteins, confirming their regulation by Mrr1p or Tac1p. Several proteins involved in heat shock and carbohydrate metabolism were differentially expressed in all clinical isolate sets, but these proteins were not dependent upon either Tac1p or Mrr1p.