AUTHOR=Pais Pedro , Pires Carla , Costa Catarina , Okamoto Michiyo , Chibana Hiroji , Teixeira Miguel C. 

TITLE=Membrane Proteomics Analysis of the Candida glabrata Response to 5-Flucytosine: Unveiling the Role and Regulation of the Drug Efflux Transporters CgFlr1 and CgFlr2

JOURNAL=Frontiers in Microbiology

VOLUME=7

YEAR=2016

URL=https://www.frontiersin.org/journals/microbiology/articles/10.3389/fmicb.2016.02045

DOI=10.3389/fmicb.2016.02045

ISSN=1664-302X

ABSTRACT=<p>Resistance to 5-flucytosine (5-FC), used as an antifungal drug in combination therapy, compromises its therapeutic action. In this work, the response of the human pathogen <italic>Candida glabrata</italic> to 5-FC was evaluated at the membrane proteome level, using an iTRAQ-based approach. A total of 32 proteins were found to display significant expression changes in the membrane fraction of cells upon exposure to 5-FC, 50% of which under the control of CgPdr1, the major regulator of azole drug resistance. These proteins cluster into functional groups associated to cell wall assembly, lipid metabolism, amino acid/nucleotide metabolism, ribosome components and translation machinery, mitochondrial function, glucose metabolism, and multidrug resistance transport. Given the obtained indications, the function of the drug:H+ antiporters CgFlr1 (ORF <italic>CAGL0H06017g</italic>) and CgFlr2 (ORF <italic>CAGL0H06039g</italic>) was evaluated. The expression of both proteins, localized to the plasma membrane, was found to confer flucytosine resistance. CgFlr2 further confers azole drug resistance. The deletion of <italic>CgFLR1</italic> or <italic>CgFLR2</italic> was seen to increase the intracellular accumulation of 5-FC, or 5-FC and clotrimazole, suggesting that these transporters play direct roles in drug extrusion. The expression of <italic>CgFLR1</italic> and <italic>CgFLR2</italic> was found to be controlled by the transcription factors CgPdr1 and CgYap1, major regulator of oxidative stress resistance.</p>