Mammalian γ2 AMPK regulates intrinsic heart rate

Yavari, A.; Bellahcene, M.; Bucchi, A.; Sirenko, S.; Pinter, K.; Herring, N.; Jung, J.J.; Tarasov, K.V.; Sharpe, E.J.; Wolfien, M.; Czibik, G.; Steeples, V.; Ghaffari, S.; Nguyen, C.; Stockenhuber, A.; Clair, J.R.S.; Rimmbach, C.; Okamoto, Y.; Yang, D.; Wang, M.; Ziman, B.D.; Moen, J.M.; Riordon, D.R.; Ramirez, C.; Paina, M.; Lee, J.; Zhang, J.; Ahmet, I.; Matt, M.G.; Tarasova, Y.S.; Baban, D.; Sahgal, N.; Lockstone, H.; Puliyadi, R.; de Bono, J.; Siggs, O.M.; Gomes, J.; Muskett, H.; Maguire, M.L.; Beglov, Y.; Kelly, M.; Dos Santos, P.P.N.; Bright, N.J.; Woods, A.; Gehmlich, K.; Isackson, H.; Douglas, G.; Ferguson, D.J.P.; Schneider, J.E.; Tinker, A.; Wolkenhauer, O.; Channon, K.M.; Cornall, R.J.; Sternick, E.B.; Paterson, D.J.; Redwood, C.S.; Carling, D.; Proenza, C.; David, R.; Baruscotti, M.; DI FRANCESCO, D.; Lakatta, E.G.; Watkins, H.; Ashrafian, H.

doi:10.1038/s41467-017-01342-5

AMPK is a conserved serine/threonine kinase whose activity maintains cellular energy homeostasis. Eukaryotic AMPK exists as αβγ complexes, whose regulatory γ subunit confers energy sensor function by binding adenine nucleotides. Humans bearing activating mutations in the γ2 subunit exhibit a phenotype including unexplained slowing of heart rate (bradycardia). Here, we show that γ2 AMPK activation downregulates fundamental sinoatrial cell pacemaker mechanisms to lower heart rate, including sarcolemmal hyperpolarization-activated current (I f) and ryanodine receptor-derived diastolic local subsarcolemmal Ca2+ release. In contrast, loss of γ2 AMPK induces a reciprocal phenotype of increased heart rate, and prevents the adaptive intrinsic bradycardia of endurance training. Our results reveal that in mammals, for which heart rate is a key determinant of cardiac energy demand, AMPK functions in an organ-specific manner to maintain cardiac energy homeostasis and determines cardiac physiological adaptation to exercise by modulating intrinsic sinoatrial cell behavior.

Mammalian γ2 AMPK regulates intrinsic heart rate / A. Yavari, M. Bellahcene, A. Bucchi, S. Sirenko, K. Pinter, N. Herring, J.J. Jung, K.V. Tarasov, E.J. Sharpe, M. Wolfien, G. Czibik, V. Steeples, S. Ghaffari, C. Nguyen, A. Stockenhuber, J.R..S. Clair, C. Rimmbach, Y. Okamoto, D. Yang, M. Wang, B.D. Ziman, J.M. Moen, D.R. Riordon, C. Ramirez, M. Paina, J. Lee, J. Zhang, I. Ahmet, M.G. Matt, Y.S. Tarasova, D. Baban, N. Sahgal, H. Lockstone, R. Puliyadi, J. de Bono, O.M. Siggs, J. Gomes, H. Muskett, M.L. Maguire, Y. Beglov, M. Kelly, P.P..N. Dos Santos, N.J. Bright, A. Woods, K. Gehmlich, H. Isackson, G. Douglas, D.J..P. Ferguson, J.E. Schneider, A. Tinker, O. Wolkenhauer, K.M. Channon, R.J. Cornall, E.B. Sternick, D.J. Paterson, C.S. Redwood, D. Carling, C. Proenza, R. David, M. Baruscotti, D. DI FRANCESCO, E.G. Lakatta, H. Watkins, H. Ashrafian. - In: NATURE COMMUNICATIONS. - ISSN 2041-1723. - 8:1(2017 Nov 02). [10.1038/s41467-017-01342-5]

Mammalian γ2 AMPK regulates intrinsic heart rate

Yavari, Arash;Bellahcene, Mohamed;A. Bucchi;Sirenko, Syevda;Pinter, Katalin;Herring, Neil;Jung, Julia J;Tarasov, Kirill V;Sharpe, Emily J;Wolfien, Markus;Czibik, Gabor;Steeples, Violetta;Ghaffari, Sahar;Nguyen, Chinh;Stockenhuber, Alexander;Clair, Joshua R. St;Rimmbach, Christian;Okamoto, Yosuke;Yang, Dongmei;Wang, Mingyi;Ziman, Bruce D;Moen, Jack M;Riordon, Daniel R;Ramirez, Christopher;M. Paina;Lee, Joonho;Zhang, Jing;Ahmet, Ismayil;Matt, Michael G;Tarasova, Yelena S;Baban, Dilair;Sahgal, Natasha;Lockstone, Helen;Puliyadi, Rathi;de Bono, Joseph;Siggs, Owen M;Gomes, John;Muskett, Hannah;Maguire, Mahon L;Beglov, Youlia;Kelly, Matthew;Dos Santos, Pedro P. N;Bright, Nicola J;Woods, Angela;Gehmlich, Katja;Isackson, Henrik;Douglas, Gillian;Ferguson, David J. P;Schneider, Jürgen E;Tinker, Andrew;Wolkenhauer, Olaf;Channon, Keith M;Cornall, Richard J;Sternick, Eduardo B;Paterson, David J;Redwood, Charles S;Carling, David;Proenza, Catherine;David, Robert;M. Baruscotti;D. DI FRANCESCO;Lakatta, Edward G;Watkins, Hugh;Ashrafian, Houman

2017

Abstract

AMPK is a conserved serine/threonine kinase whose activity maintains cellular energy homeostasis. Eukaryotic AMPK exists as αβγ complexes, whose regulatory γ subunit confers energy sensor function by binding adenine nucleotides. Humans bearing activating mutations in the γ2 subunit exhibit a phenotype including unexplained slowing of heart rate (bradycardia). Here, we show that γ2 AMPK activation downregulates fundamental sinoatrial cell pacemaker mechanisms to lower heart rate, including sarcolemmal hyperpolarization-activated current (I f) and ryanodine receptor-derived diastolic local subsarcolemmal Ca2+ release. In contrast, loss of γ2 AMPK induces a reciprocal phenotype of increased heart rate, and prevents the adaptive intrinsic bradycardia of endurance training. Our results reveal that in mammals, for which heart rate is a key determinant of cardiac energy demand, AMPK functions in an organ-specific manner to maintain cardiac energy homeostasis and determines cardiac physiological adaptation to exercise by modulating intrinsic sinoatrial cell behavior.

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	Settori scientifico-disciplinari dell'articolo
	
			Settore BIO/09 - Fisiologia
		
	Data di pubblicazione
	
			2-nov-2017
		
	Rivista in ANCE
	
			NATURE COMMUNICATIONS
		
	DOI
	
			https://dx.doi.org/10.1038/s41467-017-01342-5
		
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