Pleiotropic effects of the vacuolar ABC transporter MLT1 of Candida albicans on cell function and virulence

Among the several mechanisms that contribute to MDR (multidrug resistance), the overexpression of drug-efflux pumps belonging to the ABC (ATP-binding cassette) superfamily is the most frequent cause of resistance to antifungal agents. The multidrug transporter proteins Cdr1p and Cdr2p of the ABCG su...

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Autores principales: Khandelwal, Nitesh Kumar, Kaemmer, Philipp, Förster, Toni M., Singh, Ashutosh, Coste, Alix T., Andes, David R., Hube, Bernhard, Sanglard, Dominique, Chauhan, Neeraj, Kaur, Rupinder, d'Enfert, Christophe, Mondal, Alok Kumar, Prasad, Rajendra
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Portland Press Ltd. 2016
Materias:
Research Articles
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4888455/
https://www.ncbi.nlm.nih.gov/pubmed/27026051
http://dx.doi.org/10.1042/BCJ20160024
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author Khandelwal, Nitesh Kumar
Kaemmer, Philipp
Förster, Toni M.
Singh, Ashutosh
Coste, Alix T.
Andes, David R.
Hube, Bernhard
Sanglard, Dominique
Chauhan, Neeraj
Kaur, Rupinder
d'Enfert, Christophe
Mondal, Alok Kumar
Prasad, Rajendra
author_facet Khandelwal, Nitesh Kumar
Kaemmer, Philipp
Förster, Toni M.
Singh, Ashutosh
Coste, Alix T.
Andes, David R.
Hube, Bernhard
Sanglard, Dominique
Chauhan, Neeraj
Kaur, Rupinder
d'Enfert, Christophe
Mondal, Alok Kumar
Prasad, Rajendra
author_sort Khandelwal, Nitesh Kumar
collection PubMed
description Among the several mechanisms that contribute to MDR (multidrug resistance), the overexpression of drug-efflux pumps belonging to the ABC (ATP-binding cassette) superfamily is the most frequent cause of resistance to antifungal agents. The multidrug transporter proteins Cdr1p and Cdr2p of the ABCG subfamily are major players in the development of MDR in Candida albicans. Because several genes coding for ABC proteins exist in the genome of C. albicans, but only Cdr1p and Cdr2p have established roles in MDR, it is implicit that the other members of the ABC family also have alternative physiological roles. The present study focuses on an ABC transporter of C. albicans, Mlt1p, which is localized in the vacuolar membrane and specifically transports PC (phosphatidylcholine) into the vacuolar lumen. Transcriptional profiling of the mlt1∆/∆ mutant revealed a down-regulation of the genes involved in endocytosis, oxidoreductase activity, virulence and hyphal development. High-throughput MS-based lipidome analysis revealed that the Mlt1p levels affect lipid homoeostasis and thus lead to a plethora of physiological perturbations. These include a delay in endocytosis, inefficient sequestering of reactive oxygen species (ROS), defects in hyphal development and attenuated virulence. The present study is an emerging example where new and unconventional roles of an ABC transporter are being identified.
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spelling pubmed-48884552016-06-08 Pleiotropic effects of the vacuolar ABC transporter MLT1 of Candida albicans on cell function and virulence Khandelwal, Nitesh Kumar Kaemmer, Philipp Förster, Toni M. Singh, Ashutosh Coste, Alix T. Andes, David R. Hube, Bernhard Sanglard, Dominique Chauhan, Neeraj Kaur, Rupinder d'Enfert, Christophe Mondal, Alok Kumar Prasad, Rajendra Biochem J Research Articles Among the several mechanisms that contribute to MDR (multidrug resistance), the overexpression of drug-efflux pumps belonging to the ABC (ATP-binding cassette) superfamily is the most frequent cause of resistance to antifungal agents. The multidrug transporter proteins Cdr1p and Cdr2p of the ABCG subfamily are major players in the development of MDR in Candida albicans. Because several genes coding for ABC proteins exist in the genome of C. albicans, but only Cdr1p and Cdr2p have established roles in MDR, it is implicit that the other members of the ABC family also have alternative physiological roles. The present study focuses on an ABC transporter of C. albicans, Mlt1p, which is localized in the vacuolar membrane and specifically transports PC (phosphatidylcholine) into the vacuolar lumen. Transcriptional profiling of the mlt1∆/∆ mutant revealed a down-regulation of the genes involved in endocytosis, oxidoreductase activity, virulence and hyphal development. High-throughput MS-based lipidome analysis revealed that the Mlt1p levels affect lipid homoeostasis and thus lead to a plethora of physiological perturbations. These include a delay in endocytosis, inefficient sequestering of reactive oxygen species (ROS), defects in hyphal development and attenuated virulence. The present study is an emerging example where new and unconventional roles of an ABC transporter are being identified. Portland Press Ltd. 2016-05-27 2016-06-01 /pmc/articles/PMC4888455/ /pubmed/27026051 http://dx.doi.org/10.1042/BCJ20160024 Text en © 2016 The Author(s). published by Portland Press Limited on behalf of the Biochemical Society
spellingShingle Research Articles
Khandelwal, Nitesh Kumar
Kaemmer, Philipp
Förster, Toni M.
Singh, Ashutosh
Coste, Alix T.
Andes, David R.
Hube, Bernhard
Sanglard, Dominique
Chauhan, Neeraj
Kaur, Rupinder
d'Enfert, Christophe
Mondal, Alok Kumar
Prasad, Rajendra
Pleiotropic effects of the vacuolar ABC transporter MLT1 of Candida albicans on cell function and virulence
title Pleiotropic effects of the vacuolar ABC transporter MLT1 of Candida albicans on cell function and virulence
title_full Pleiotropic effects of the vacuolar ABC transporter MLT1 of Candida albicans on cell function and virulence
title_fullStr Pleiotropic effects of the vacuolar ABC transporter MLT1 of Candida albicans on cell function and virulence
title_full_unstemmed Pleiotropic effects of the vacuolar ABC transporter MLT1 of Candida albicans on cell function and virulence
title_short Pleiotropic effects of the vacuolar ABC transporter MLT1 of Candida albicans on cell function and virulence
title_sort pleiotropic effects of the vacuolar abc transporter mlt1 of candida albicans on cell function and virulence
topic Research Articles
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4888455/
https://www.ncbi.nlm.nih.gov/pubmed/27026051
http://dx.doi.org/10.1042/BCJ20160024
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