The bZIP Transcription Factor Rca1p Is a Central Regulator of a Novel CO(2) Sensing Pathway in Yeast

Like many organisms the fungal pathogen Candida albicans senses changes in the environmental CO(2) concentration. This response involves two major proteins: adenylyl cyclase and carbonic anhydrase (CA). Here, we demonstrate that CA expression is tightly controlled by the availability of CO(2) and id...

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Autores principales: Cottier, Fabien, Raymond, Martine, Kurzai, Oliver, Bolstad, Marianne, Leewattanapasuk, Worraanong, Jiménez-López, Claudia, Lorenz, Michael C., Sanglard, Dominique, Váchová, Libuše, Pavelka, Norman, Palková, Zdena, Mühlschlegel, Fritz A.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2012
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3257301/
https://www.ncbi.nlm.nih.gov/pubmed/22253597
http://dx.doi.org/10.1371/journal.ppat.1002485
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author Cottier, Fabien
Raymond, Martine
Kurzai, Oliver
Bolstad, Marianne
Leewattanapasuk, Worraanong
Jiménez-López, Claudia
Lorenz, Michael C.
Sanglard, Dominique
Váchová, Libuše
Pavelka, Norman
Palková, Zdena
Mühlschlegel, Fritz A.
author_facet Cottier, Fabien
Raymond, Martine
Kurzai, Oliver
Bolstad, Marianne
Leewattanapasuk, Worraanong
Jiménez-López, Claudia
Lorenz, Michael C.
Sanglard, Dominique
Váchová, Libuše
Pavelka, Norman
Palková, Zdena
Mühlschlegel, Fritz A.
author_sort Cottier, Fabien
collection PubMed
description Like many organisms the fungal pathogen Candida albicans senses changes in the environmental CO(2) concentration. This response involves two major proteins: adenylyl cyclase and carbonic anhydrase (CA). Here, we demonstrate that CA expression is tightly controlled by the availability of CO(2) and identify the bZIP transcription factor Rca1p as the first CO(2) regulator of CA expression in yeast. We show that Rca1p upregulates CA expression during contact with mammalian phagocytes and demonstrate that serine 124 is critical for Rca1p signaling, which occurs independently of adenylyl cyclase. ChIP-chip analysis and the identification of Rca1p orthologs in the model yeast Saccharomyces cerevisiae (Cst6p) point to the broad significance of this novel pathway in fungi. By using advanced microscopy we visualize for the first time the impact of CO(2) build-up on gene expression in entire fungal populations with an exceptional level of detail. Our results present the bZIP protein Rca1p as the first fungal regulator of carbonic anhydrase, and reveal the existence of an adenylyl cyclase independent CO(2) sensing pathway in yeast. Rca1p appears to regulate cellular metabolism in response to CO(2) availability in environments as diverse as the phagosome, yeast communities or liquid culture.
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spelling pubmed-32573012012-01-17 The bZIP Transcription Factor Rca1p Is a Central Regulator of a Novel CO(2) Sensing Pathway in Yeast Cottier, Fabien Raymond, Martine Kurzai, Oliver Bolstad, Marianne Leewattanapasuk, Worraanong Jiménez-López, Claudia Lorenz, Michael C. Sanglard, Dominique Váchová, Libuše Pavelka, Norman Palková, Zdena Mühlschlegel, Fritz A. PLoS Pathog Research Article Like many organisms the fungal pathogen Candida albicans senses changes in the environmental CO(2) concentration. This response involves two major proteins: adenylyl cyclase and carbonic anhydrase (CA). Here, we demonstrate that CA expression is tightly controlled by the availability of CO(2) and identify the bZIP transcription factor Rca1p as the first CO(2) regulator of CA expression in yeast. We show that Rca1p upregulates CA expression during contact with mammalian phagocytes and demonstrate that serine 124 is critical for Rca1p signaling, which occurs independently of adenylyl cyclase. ChIP-chip analysis and the identification of Rca1p orthologs in the model yeast Saccharomyces cerevisiae (Cst6p) point to the broad significance of this novel pathway in fungi. By using advanced microscopy we visualize for the first time the impact of CO(2) build-up on gene expression in entire fungal populations with an exceptional level of detail. Our results present the bZIP protein Rca1p as the first fungal regulator of carbonic anhydrase, and reveal the existence of an adenylyl cyclase independent CO(2) sensing pathway in yeast. Rca1p appears to regulate cellular metabolism in response to CO(2) availability in environments as diverse as the phagosome, yeast communities or liquid culture. Public Library of Science 2012-01-12 /pmc/articles/PMC3257301/ /pubmed/22253597 http://dx.doi.org/10.1371/journal.ppat.1002485 Text en Cottier et al. http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are properly credited.
spellingShingle Research Article
Cottier, Fabien
Raymond, Martine
Kurzai, Oliver
Bolstad, Marianne
Leewattanapasuk, Worraanong
Jiménez-López, Claudia
Lorenz, Michael C.
Sanglard, Dominique
Váchová, Libuše
Pavelka, Norman
Palková, Zdena
Mühlschlegel, Fritz A.
The bZIP Transcription Factor Rca1p Is a Central Regulator of a Novel CO(2) Sensing Pathway in Yeast
title The bZIP Transcription Factor Rca1p Is a Central Regulator of a Novel CO(2) Sensing Pathway in Yeast
title_full The bZIP Transcription Factor Rca1p Is a Central Regulator of a Novel CO(2) Sensing Pathway in Yeast
title_fullStr The bZIP Transcription Factor Rca1p Is a Central Regulator of a Novel CO(2) Sensing Pathway in Yeast
title_full_unstemmed The bZIP Transcription Factor Rca1p Is a Central Regulator of a Novel CO(2) Sensing Pathway in Yeast
title_short The bZIP Transcription Factor Rca1p Is a Central Regulator of a Novel CO(2) Sensing Pathway in Yeast
title_sort bzip transcription factor rca1p is a central regulator of a novel co(2) sensing pathway in yeast
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3257301/
https://www.ncbi.nlm.nih.gov/pubmed/22253597
http://dx.doi.org/10.1371/journal.ppat.1002485
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