A G(s)-coupled purinergic receptor boosts Ca(2+) influx and vascular contractility during diabetic hyperglycemia

Elevated glucose increases vascular reactivity by promoting L-type Ca(V)1.2 channel (LTCC) activity by protein kinase A (PKA). Yet, how glucose activates PKA is unknown. We hypothesized that a G(s)-coupled P2Y receptor is an upstream activator of PKA mediating LTCC potentiation during diabetic hyper...

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Autores principales: Prada, Maria Paz, Syed, Arsalan U, Buonarati, Olivia R, Reddy, Gopireddy R, Nystoriak, Matthew A, Ghosh, Debapriya, Simó, Sergi, Sato, Daisuke, Sasse, Kent C, Ward, Sean M, Santana, Luis F, Xiang, Yang K, Hell, Johannes W, Nieves-Cintrón, Madeline, Navedo, Manuel F
Formato: Online Artículo Texto
Lenguaje:English
Publicado: eLife Sciences Publications, Ltd 2019
Materias:
Cell Biology
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6397001/
https://www.ncbi.nlm.nih.gov/pubmed/30821687
http://dx.doi.org/10.7554/eLife.42214
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author Prada, Maria Paz
Syed, Arsalan U
Buonarati, Olivia R
Reddy, Gopireddy R
Nystoriak, Matthew A
Ghosh, Debapriya
Simó, Sergi
Sato, Daisuke
Sasse, Kent C
Ward, Sean M
Santana, Luis F
Xiang, Yang K
Hell, Johannes W
Nieves-Cintrón, Madeline
Navedo, Manuel F
author_facet Prada, Maria Paz
Syed, Arsalan U
Buonarati, Olivia R
Reddy, Gopireddy R
Nystoriak, Matthew A
Ghosh, Debapriya
Simó, Sergi
Sato, Daisuke
Sasse, Kent C
Ward, Sean M
Santana, Luis F
Xiang, Yang K
Hell, Johannes W
Nieves-Cintrón, Madeline
Navedo, Manuel F
author_sort Prada, Maria Paz
collection PubMed
description Elevated glucose increases vascular reactivity by promoting L-type Ca(V)1.2 channel (LTCC) activity by protein kinase A (PKA). Yet, how glucose activates PKA is unknown. We hypothesized that a G(s)-coupled P2Y receptor is an upstream activator of PKA mediating LTCC potentiation during diabetic hyperglycemia. Experiments in apyrase-treated cells suggested involvement of a P2Y receptor underlying the glucose effects on LTTCs. Using human tissue, expression for P2Y(11), the only G(s)-coupled P2Y receptor, was detected in nanometer proximity to Ca(V)1.2 and PKA. FRET-based experiments revealed that the selective P2Y(11) agonist NF546 and elevated glucose stimulate cAMP production resulting in enhanced PKA-dependent LTCC activity. These changes were blocked by the selective P2Y(11) inhibitor NF340. Comparable results were observed in mouse tissue, suggesting that a P2Y(11)-like receptor is mediating the glucose response in these cells. These findings established a key role for P2Y(11) in regulating PKA-dependent LTCC function and vascular reactivity during diabetic hyperglycemia.
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spelling pubmed-63970012019-03-04 A G(s)-coupled purinergic receptor boosts Ca(2+) influx and vascular contractility during diabetic hyperglycemia Prada, Maria Paz Syed, Arsalan U Buonarati, Olivia R Reddy, Gopireddy R Nystoriak, Matthew A Ghosh, Debapriya Simó, Sergi Sato, Daisuke Sasse, Kent C Ward, Sean M Santana, Luis F Xiang, Yang K Hell, Johannes W Nieves-Cintrón, Madeline Navedo, Manuel F eLife Cell Biology Elevated glucose increases vascular reactivity by promoting L-type Ca(V)1.2 channel (LTCC) activity by protein kinase A (PKA). Yet, how glucose activates PKA is unknown. We hypothesized that a G(s)-coupled P2Y receptor is an upstream activator of PKA mediating LTCC potentiation during diabetic hyperglycemia. Experiments in apyrase-treated cells suggested involvement of a P2Y receptor underlying the glucose effects on LTTCs. Using human tissue, expression for P2Y(11), the only G(s)-coupled P2Y receptor, was detected in nanometer proximity to Ca(V)1.2 and PKA. FRET-based experiments revealed that the selective P2Y(11) agonist NF546 and elevated glucose stimulate cAMP production resulting in enhanced PKA-dependent LTCC activity. These changes were blocked by the selective P2Y(11) inhibitor NF340. Comparable results were observed in mouse tissue, suggesting that a P2Y(11)-like receptor is mediating the glucose response in these cells. These findings established a key role for P2Y(11) in regulating PKA-dependent LTCC function and vascular reactivity during diabetic hyperglycemia. eLife Sciences Publications, Ltd 2019-03-01 /pmc/articles/PMC6397001/ /pubmed/30821687 http://dx.doi.org/10.7554/eLife.42214 Text en © 2019, Prada et al http://creativecommons.org/licenses/by/4.0/ http://creativecommons.org/licenses/by/4.0/This article is distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/) , which permits unrestricted use and redistribution provided that the original author and source are credited.
spellingShingle Cell Biology
Prada, Maria Paz
Syed, Arsalan U
Buonarati, Olivia R
Reddy, Gopireddy R
Nystoriak, Matthew A
Ghosh, Debapriya
Simó, Sergi
Sato, Daisuke
Sasse, Kent C
Ward, Sean M
Santana, Luis F
Xiang, Yang K
Hell, Johannes W
Nieves-Cintrón, Madeline
Navedo, Manuel F
A G(s)-coupled purinergic receptor boosts Ca(2+) influx and vascular contractility during diabetic hyperglycemia
title A G(s)-coupled purinergic receptor boosts Ca(2+) influx and vascular contractility during diabetic hyperglycemia
title_full A G(s)-coupled purinergic receptor boosts Ca(2+) influx and vascular contractility during diabetic hyperglycemia
title_fullStr A G(s)-coupled purinergic receptor boosts Ca(2+) influx and vascular contractility during diabetic hyperglycemia
title_full_unstemmed A G(s)-coupled purinergic receptor boosts Ca(2+) influx and vascular contractility during diabetic hyperglycemia
title_short A G(s)-coupled purinergic receptor boosts Ca(2+) influx and vascular contractility during diabetic hyperglycemia
title_sort g(s)-coupled purinergic receptor boosts ca(2+) influx and vascular contractility during diabetic hyperglycemia
topic Cell Biology
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6397001/
https://www.ncbi.nlm.nih.gov/pubmed/30821687
http://dx.doi.org/10.7554/eLife.42214
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