Mammalian γ2 AMPK regulates intrinsic heart rate

Mammalian γ2 AMPK regulates intrinsic heart rate

AMPK regulates cellular energy balance using its γ subunit as an energy sensor of cellular AMP and ADP to ATP ratios. Here, the authors show that γ2 AMPK activation lowers heart rate by reducing the activity of pacemaker cells, whereas loss of γ2 AMPK increases heart rate and prevents the adaptive b...

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Autores principales: Arash Yavari, Mohamed Bellahcene, Annalisa Bucchi, Syevda Sirenko, Katalin Pinter, Neil Herring, Julia J. Jung, Kirill V. Tarasov, Emily J. Sharpe, Markus Wolfien, Gabor Czibik, Violetta Steeples, Sahar Ghaffari, Chinh Nguyen, Alexander Stockenhuber, Joshua R. St. Clair, Christian Rimmbach, Yosuke Okamoto, Dongmei Yang, Mingyi Wang, Bruce D. Ziman, Jack M. Moen, Daniel R. Riordon, Christopher Ramirez, Manuel Paina, Joonho Lee, Jing Zhang, Ismayil Ahmet, Michael G. Matt, Yelena S. Tarasova, Dilair Baban, Natasha Sahgal, Helen Lockstone, Rathi Puliyadi, Joseph de Bono, Owen M. Siggs, John Gomes, Hannah Muskett, Mahon L. Maguire, Youlia Beglov, Matthew Kelly, Pedro P. N. dos Santos, Nicola J. Bright, Angela Woods, Katja Gehmlich, Henrik Isackson, Gillian Douglas, David J. P. Ferguson, Jürgen E. Schneider, Andrew Tinker, Olaf Wolkenhauer, Keith M. Channon, Richard J. Cornall, Eduardo B. Sternick, David J. Paterson, Charles S. Redwood, David Carling, Catherine Proenza, Robert David, Mirko Baruscotti, Dario DiFrancesco, Edward G. Lakatta, Hugh Watkins, Houman Ashrafian
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Publicado: Nature Portfolio 2017
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Acceso en línea:https://doaj.org/article/93dc1bb6f94248b0bbd5f23512479816
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spelling oai:doaj.org-article:93dc1bb6f94248b0bbd5f235124798162021-12-02T17:06:30ZMammalian γ2 AMPK regulates intrinsic heart rate10.1038/s41467-017-01342-52041-1723https://doaj.org/article/93dc1bb6f94248b0bbd5f235124798162017-11-01T00:00:00Zhttps://doi.org/10.1038/s41467-017-01342-5https://doaj.org/toc/2041-1723AMPK regulates cellular energy balance using its γ subunit as an energy sensor of cellular AMP and ADP to ATP ratios. Here, the authors show that γ2 AMPK activation lowers heart rate by reducing the activity of pacemaker cells, whereas loss of γ2 AMPK increases heart rate and prevents the adaptive bradycardia of endurance training in mice.Arash YavariMohamed BellahceneAnnalisa BucchiSyevda SirenkoKatalin PinterNeil HerringJulia J. JungKirill V. TarasovEmily J. SharpeMarkus WolfienGabor CzibikVioletta SteeplesSahar GhaffariChinh NguyenAlexander StockenhuberJoshua R. St. ClairChristian RimmbachYosuke OkamotoDongmei YangMingyi WangBruce D. ZimanJack M. MoenDaniel R. RiordonChristopher RamirezManuel PainaJoonho LeeJing ZhangIsmayil AhmetMichael G. MattYelena S. TarasovaDilair BabanNatasha SahgalHelen LockstoneRathi PuliyadiJoseph de BonoOwen M. SiggsJohn GomesHannah MuskettMahon L. MaguireYoulia BeglovMatthew KellyPedro P. N. dos SantosNicola J. BrightAngela WoodsKatja GehmlichHenrik IsacksonGillian DouglasDavid J. P. FergusonJürgen E. SchneiderAndrew TinkerOlaf WolkenhauerKeith M. ChannonRichard J. CornallEduardo B. SternickDavid J. PatersonCharles S. RedwoodDavid CarlingCatherine ProenzaRobert DavidMirko BaruscottiDario DiFrancescoEdward G. LakattaHugh WatkinsHouman AshrafianNature PortfolioarticleScienceQENNature Communications, Vol 8, Iss 1, Pp 1-19 (2017)
institution DOAJ
collection DOAJ
language EN
topic Science
Q
spellingShingle Science
Q
Arash Yavari
Mohamed Bellahcene
Annalisa Bucchi
Syevda Sirenko
Katalin Pinter
Neil Herring
Julia J. Jung
Kirill V. Tarasov
Emily J. Sharpe
Markus Wolfien
Gabor Czibik
Violetta Steeples
Sahar Ghaffari
Chinh Nguyen
Alexander Stockenhuber
Joshua R. St. Clair
Christian Rimmbach
Yosuke Okamoto
Dongmei Yang
Mingyi Wang
Bruce D. Ziman
Jack M. Moen
Daniel R. Riordon
Christopher Ramirez
Manuel Paina
Joonho Lee
Jing Zhang
Ismayil Ahmet
Michael G. Matt
Yelena S. Tarasova
Dilair Baban
Natasha Sahgal
Helen Lockstone
Rathi Puliyadi
Joseph de Bono
Owen M. Siggs
John Gomes
Hannah Muskett
Mahon L. Maguire
Youlia Beglov
Matthew Kelly
Pedro P. N. dos Santos
Nicola J. Bright
Angela Woods
Katja Gehmlich
Henrik Isackson
Gillian Douglas
David J. P. Ferguson
Jürgen E. Schneider
Andrew Tinker
Olaf Wolkenhauer
Keith M. Channon
Richard J. Cornall
Eduardo B. Sternick
David J. Paterson
Charles S. Redwood
David Carling
Catherine Proenza
Robert David
Mirko Baruscotti
Dario DiFrancesco
Edward G. Lakatta
Hugh Watkins
Houman Ashrafian
Mammalian γ2 AMPK regulates intrinsic heart rate
description AMPK regulates cellular energy balance using its γ subunit as an energy sensor of cellular AMP and ADP to ATP ratios. Here, the authors show that γ2 AMPK activation lowers heart rate by reducing the activity of pacemaker cells, whereas loss of γ2 AMPK increases heart rate and prevents the adaptive bradycardia of endurance training in mice.
format article
author Arash Yavari
Mohamed Bellahcene
Annalisa Bucchi
Syevda Sirenko
Katalin Pinter
Neil Herring
Julia J. Jung
Kirill V. Tarasov
Emily J. Sharpe
Markus Wolfien
Gabor Czibik
Violetta Steeples
Sahar Ghaffari
Chinh Nguyen
Alexander Stockenhuber
Joshua R. St. Clair
Christian Rimmbach
Yosuke Okamoto
Dongmei Yang
Mingyi Wang
Bruce D. Ziman
Jack M. Moen
Daniel R. Riordon
Christopher Ramirez
Manuel Paina
Joonho Lee
Jing Zhang
Ismayil Ahmet
Michael G. Matt
Yelena S. Tarasova
Dilair Baban
Natasha Sahgal
Helen Lockstone
Rathi Puliyadi
Joseph de Bono
Owen M. Siggs
John Gomes
Hannah Muskett
Mahon L. Maguire
Youlia Beglov
Matthew Kelly
Pedro P. N. dos Santos
Nicola J. Bright
Angela Woods
Katja Gehmlich
Henrik Isackson
Gillian Douglas
David J. P. Ferguson
Jürgen E. Schneider
Andrew Tinker
Olaf Wolkenhauer
Keith M. Channon
Richard J. Cornall
Eduardo B. Sternick
David J. Paterson
Charles S. Redwood
David Carling
Catherine Proenza
Robert David
Mirko Baruscotti
Dario DiFrancesco
Edward G. Lakatta
Hugh Watkins
Houman Ashrafian
author_facet Arash Yavari
Mohamed Bellahcene
Annalisa Bucchi
Syevda Sirenko
Katalin Pinter
Neil Herring
Julia J. Jung
Kirill V. Tarasov
Emily J. Sharpe
Markus Wolfien
Gabor Czibik
Violetta Steeples
Sahar Ghaffari
Chinh Nguyen
Alexander Stockenhuber
Joshua R. St. Clair
Christian Rimmbach
Yosuke Okamoto
Dongmei Yang
Mingyi Wang
Bruce D. Ziman
Jack M. Moen
Daniel R. Riordon
Christopher Ramirez
Manuel Paina
Joonho Lee
Jing Zhang
Ismayil Ahmet
Michael G. Matt
Yelena S. Tarasova
Dilair Baban
Natasha Sahgal
Helen Lockstone
Rathi Puliyadi
Joseph de Bono
Owen M. Siggs
John Gomes
Hannah Muskett
Mahon L. Maguire
Youlia Beglov
Matthew Kelly
Pedro P. N. dos Santos
Nicola J. Bright
Angela Woods
Katja Gehmlich
Henrik Isackson
Gillian Douglas
David J. P. Ferguson
Jürgen E. Schneider
Andrew Tinker
Olaf Wolkenhauer
Keith M. Channon
Richard J. Cornall
Eduardo B. Sternick
David J. Paterson
Charles S. Redwood
David Carling
Catherine Proenza
Robert David
Mirko Baruscotti
Dario DiFrancesco
Edward G. Lakatta
Hugh Watkins
Houman Ashrafian
author_sort Arash Yavari
title Mammalian γ2 AMPK regulates intrinsic heart rate
title_short Mammalian γ2 AMPK regulates intrinsic heart rate
title_full Mammalian γ2 AMPK regulates intrinsic heart rate
title_fullStr Mammalian γ2 AMPK regulates intrinsic heart rate
title_full_unstemmed Mammalian γ2 AMPK regulates intrinsic heart rate
title_sort mammalian γ2 ampk regulates intrinsic heart rate
publisher Nature Portfolio
publishDate 2017
url https://doaj.org/article/93dc1bb6f94248b0bbd5f23512479816
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