Abstract
Infections caused by opportunistic fungal pathogens have reached concerning numbers due to the increase of the immunocrompromised human population and to the development of antifungal resistance. This resistance is often attributed to the action of multidrug efflux pumps, belonging to the ATP-binding cassette (ABC) superfamily and the major facilitator superfamily (MFS). Although many studies have focused on the role of ABC multidrug efflux transporters, little is still known on the part played by the Drug:H+ Antiporter (DHA) family of the MFS in this context. This review summarizes current knowledge on the role in antifungal drug resistance, mode of action and phylogenetic relations of DHA transporters, from the model yeast S. cerevisiae to pathogenic yeasts and filamentous fungi. Through the compilation of the predicted DHA transporters in the medically relevant Candida albicans, C. glabrata, C. parapsilosis, C. lusitaniae, C. tropicalis, C. guilliermondii, Cryptococcus neoformans, and Aspergillus fumigatus species, the fact that only 5% of the DHA transporters from these organisms have been characterized so far is evidenced. The role of these transporters in antifungal drug resistance and in pathogen-host interaction is described and their clinical relevance discussed. Given the knowledge gathered for these few DHA transporters, the need to carry out a systematic characterization of the DHA multidrug efflux pumps in fungal pathogens, with emphasis on their clinical relevance, is highlighted.
Highlights
The multidrug resistance (MDR) phenomenon, characterized by the simultaneous acquisition of resistance to chemically and structurally different compounds (Sá-Correia et al, 2009; Morschhauser, 2010), poses a severe problem in the treatment of fungal infections
Much less attention has been drawn to the expected role of the Drug:H+ Antiporter (DHA) family of the major facilitator superfamily (MFS)
THE DRUG:H+ ANTIPORTER FAMILY: LESSONS FROM SACCHAROMYCES CEREVISIAE Upon the release of the complete Saccharomyces cerevisiae genome sequence (Goffeau et al, 1996), a total of 22 transporters belonging to the MFS were identified and clustered into two families: the drug:H+ antiporter family 1 (DHA1) and 2 (DHA2)
Summary
The multidrug resistance (MDR) phenomenon, characterized by the simultaneous acquisition of resistance to chemically and structurally different compounds (Sá-Correia et al, 2009; Morschhauser, 2010), poses a severe problem in the treatment of fungal infections. There are mainly four mechanisms by which a cell can deal with a toxic compound: (i) drug target alteration, (ii) drug inactivation, (iii) reduced uptake, or (iv) active extrusion (Ernst et al, 2010) The latter occurs mainly due to the action of membrane transporters which belong to one of two superfamilies in fungi: the ATP-binding cassette superfamily (ABC) and the major facilitator superfamily (MFS) (Cannon et al, 2009; Sá-Correia et al, 2009; Morschhauser, 2010). THE DRUG:H+ ANTIPORTER FAMILY: LESSONS FROM SACCHAROMYCES CEREVISIAE Upon the release of the complete Saccharomyces cerevisiae genome sequence (Goffeau et al, 1996), a total of 22 transporters belonging to the MFS were identified and clustered into two families: the drug:H+ antiporter family 1 (DHA1) and 2 (DHA2) These families differ mainly in the number of transmembrane spans (TMS), with the first having 12 and the second 14 TMS (Sá-Correia et al, 2009). That is the case of ScTpo and ScQdr, which confer resistance to toxic levels of polyamines
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