Expression, Regulation and Putative Nutrient-Sensing Function of Taste GPCRs in the Heart

G protein-coupled receptors (GPCRs) are critical for cardiovascular physiology. Cardiac cells express >100 nonchemosensory GPCRs, indicating that important physiological and potential therapeutic targets remain to be discovered. Moreover, there is a growing appreciation that members of the large,...

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Autores principales: Foster, Simon R., Porrello, Enzo R., Purdue, Brooke, Chan, Hsiu-Wen, Voigt, Anja, Frenzel, Sabine, Hannan, Ross D., Moritz, Karen M., Simmons, David G., Molenaar, Peter, Roura, Eugeni, Boehm, Ulrich, Meyerhof, Wolfgang, Thomas, Walter G.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2013
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3655793/
https://www.ncbi.nlm.nih.gov/pubmed/23696900
http://dx.doi.org/10.1371/journal.pone.0064579
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author Foster, Simon R.
Porrello, Enzo R.
Purdue, Brooke
Chan, Hsiu-Wen
Voigt, Anja
Frenzel, Sabine
Hannan, Ross D.
Moritz, Karen M.
Simmons, David G.
Molenaar, Peter
Roura, Eugeni
Boehm, Ulrich
Meyerhof, Wolfgang
Thomas, Walter G.
author_facet Foster, Simon R.
Porrello, Enzo R.
Purdue, Brooke
Chan, Hsiu-Wen
Voigt, Anja
Frenzel, Sabine
Hannan, Ross D.
Moritz, Karen M.
Simmons, David G.
Molenaar, Peter
Roura, Eugeni
Boehm, Ulrich
Meyerhof, Wolfgang
Thomas, Walter G.
author_sort Foster, Simon R.
collection PubMed
description G protein-coupled receptors (GPCRs) are critical for cardiovascular physiology. Cardiac cells express >100 nonchemosensory GPCRs, indicating that important physiological and potential therapeutic targets remain to be discovered. Moreover, there is a growing appreciation that members of the large, distinct taste and odorant GPCR families have specific functions in tissues beyond the oronasal cavity, including in the brain, gastrointestinal tract and respiratory system. To date, these chemosensory GPCRs have not been systematically studied in the heart. We performed RT-qPCR taste receptor screens in rodent and human heart tissues that revealed discrete subsets of type 2 taste receptors (TAS2/Tas2) as well as Tas1r1 and Tas1r3 (comprising the umami receptor) are expressed. These taste GPCRs are present in cultured cardiac myocytes and fibroblasts, and by in situ hybridization can be visualized across the myocardium in isolated cardiac cells. Tas1r1 gene-targeted mice (Tas1r1(Cre)/Rosa26(tdRFP)) strikingly recapitulated these data. In vivo taste receptor expression levels were developmentally regulated in the postnatal period. Intriguingly, several Tas2rs were upregulated in cultured rat myocytes and in mouse heart in vivo following starvation. The discovery of taste GPCRs in the heart opens an exciting new field of cardiac research. We predict that these taste receptors may function as nutrient sensors in the heart.
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spelling pubmed-36557932013-05-21 Expression, Regulation and Putative Nutrient-Sensing Function of Taste GPCRs in the Heart Foster, Simon R. Porrello, Enzo R. Purdue, Brooke Chan, Hsiu-Wen Voigt, Anja Frenzel, Sabine Hannan, Ross D. Moritz, Karen M. Simmons, David G. Molenaar, Peter Roura, Eugeni Boehm, Ulrich Meyerhof, Wolfgang Thomas, Walter G. PLoS One Research Article G protein-coupled receptors (GPCRs) are critical for cardiovascular physiology. Cardiac cells express >100 nonchemosensory GPCRs, indicating that important physiological and potential therapeutic targets remain to be discovered. Moreover, there is a growing appreciation that members of the large, distinct taste and odorant GPCR families have specific functions in tissues beyond the oronasal cavity, including in the brain, gastrointestinal tract and respiratory system. To date, these chemosensory GPCRs have not been systematically studied in the heart. We performed RT-qPCR taste receptor screens in rodent and human heart tissues that revealed discrete subsets of type 2 taste receptors (TAS2/Tas2) as well as Tas1r1 and Tas1r3 (comprising the umami receptor) are expressed. These taste GPCRs are present in cultured cardiac myocytes and fibroblasts, and by in situ hybridization can be visualized across the myocardium in isolated cardiac cells. Tas1r1 gene-targeted mice (Tas1r1(Cre)/Rosa26(tdRFP)) strikingly recapitulated these data. In vivo taste receptor expression levels were developmentally regulated in the postnatal period. Intriguingly, several Tas2rs were upregulated in cultured rat myocytes and in mouse heart in vivo following starvation. The discovery of taste GPCRs in the heart opens an exciting new field of cardiac research. We predict that these taste receptors may function as nutrient sensors in the heart. Public Library of Science 2013-05-15 /pmc/articles/PMC3655793/ /pubmed/23696900 http://dx.doi.org/10.1371/journal.pone.0064579 Text en © 2013 Foster 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
Foster, Simon R.
Porrello, Enzo R.
Purdue, Brooke
Chan, Hsiu-Wen
Voigt, Anja
Frenzel, Sabine
Hannan, Ross D.
Moritz, Karen M.
Simmons, David G.
Molenaar, Peter
Roura, Eugeni
Boehm, Ulrich
Meyerhof, Wolfgang
Thomas, Walter G.
Expression, Regulation and Putative Nutrient-Sensing Function of Taste GPCRs in the Heart
title Expression, Regulation and Putative Nutrient-Sensing Function of Taste GPCRs in the Heart
title_full Expression, Regulation and Putative Nutrient-Sensing Function of Taste GPCRs in the Heart
title_fullStr Expression, Regulation and Putative Nutrient-Sensing Function of Taste GPCRs in the Heart
title_full_unstemmed Expression, Regulation and Putative Nutrient-Sensing Function of Taste GPCRs in the Heart
title_short Expression, Regulation and Putative Nutrient-Sensing Function of Taste GPCRs in the Heart
title_sort expression, regulation and putative nutrient-sensing function of taste gpcrs in the heart
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3655793/
https://www.ncbi.nlm.nih.gov/pubmed/23696900
http://dx.doi.org/10.1371/journal.pone.0064579
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