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4. A circadian clock in the sinus node mediates day-night rhythms in Hcn4 and heart rate

Author

D’Souza, Alicia, Wang, Yanwen, Anderson, Cali, Bucchi, Annalisa, Baruscotti, Mirko, Olieslagers, Servé, Mesirca, Pietro, Johnsen, Anne Berit, Mastitskaya, Svetlana, Ni, Haibo, Zhang, Yu, Black, Nicholas, Cox, Charlotte, Wegner, Sven, Bano-Otalora, Beatriz, Petit, Cheryl, Gill, Eleanor, Logantha, Sunil Jit R.J., Dobrzynski, Halina, Ashton, Nick, Hart, George, Zhang, Rai, Zhang, Henggui, Cartwright, Elizabeth J., Wisloff, Ulrik, Mangoni, Matteo E., da Costa Martins, Paula A., Piggins, Hugh D., DiFrancesco, Dario, and Boyett, Mark R.

Published
2021
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6. Caveolin-3 and Caveolin-1 Interaction Decreases Channel Dysfunction Due to Caveolin-3 Mutations

Author

Benzoni, Patrizia, primary, Gazzerro, Elisabetta, additional, Fiorillo, Chiara, additional, Baratto, Serena, additional, Bartolucci, Chiara, additional, Severi, Stefano, additional, Milanesi, Raffaella, additional, Lippi, Melania, additional, Langione, Marianna, additional, Murano, Carmen, additional, Meoni, Clarissa, additional, Popolizio, Vera, additional, Cospito, Alessandro, additional, Baruscotti, Mirko, additional, Bucchi, Annalisa, additional, and Barbuti, Andrea, additional

Published
2024
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7. HCN Channels and Cardiac Pacemaking

Author

Bucchi, Annalisa, Piantoni, Chiara, Barbuti, Andrea, DiFrancesco, Dario, Baruscotti, Mirko, Hecker, Markus, Editor-in-Chief, Backs, Johannes, Series Editor, Freichel, Marc, Series Editor, Korff, Thomas, Series Editor, Thomas, Dierk, Series Editor, and Remme, Carol Ann, editor

Published
2018
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8. PITX2 gain-of-function mutation associated with atrial fibrillation alters mitochondrial activity in human iPSC atrial-like cardiomyocytes

Author

Benzoni, Patrizia, primary, Da Dalt, Lorenzo, additional, Elia, Noemi, additional, Popolizio, Vera, additional, Cospito, Alessandro, additional, Giannetti, Federica, additional, Dell’Era, Patrizia, additional, Olesen, Morten S., additional, Bucchi, Annalisa, additional, Baruscotti, Mirko, additional, Norata, Giuseppe Danilo, additional, and Barbuti, Andrea, additional

Published
2023
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13. Lack of the transcription factor Nfix causes tachycardia in mice sinus node and rats neonatal cardiomyocytes

Author

Landi, Sara, primary, Giannetti, Federica, additional, Benzoni, Patrizia, additional, Campostrini, Giulia, additional, Rossi, Giuliana, additional, Piantoni, Chiara, additional, Bertoli, Giorgia, additional, Bonfanti, Chiara, additional, Carnevali, Luca, additional, Bucchi, Annalisa, additional, Baruscotti, Mirko, additional, Careccia, Giorgia, additional, Messina, Graziella, additional, and Barbuti, Andrea, additional

Published
2023
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19. Chinese natural compound decreases pacemaking of rabbit cardiac sinoatrial cells by targeting second messenger regulation of f-channels

Author

Piantoni, Chiara, primary, Paina, Manuel, primary, Molla, David, additional, Liu, Sheng, additional, Bertoli, Giorgia, additional, Jiang, Hongmei, additional, Wang, Yanyan, additional, Wang, Yi, additional, DiFrancesco, Dario, additional, Barbuti, Andrea, additional, Bucchi, Annalisa, additional, and Baruscotti, Mirko, additional

Published
2022
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20. Author response: Chinese natural compound decreases pacemaking of rabbit cardiac sinoatrial cells by targeting second messenger regulation of f-channels

Author

Piantoni, Chiara, primary, Paina, Manuel, primary, Molla, David, additional, Liu, Sheng, additional, Bertoli, Giorgia, additional, Jiang, Hongmei, additional, Wang, Yanyan, additional, Wang, Yi, additional, DiFrancesco, Dario, additional, Barbuti, Andrea, additional, Bucchi, Annalisa, additional, and Baruscotti, Mirko, additional

Published
2022
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30. A circadian clock in the sinus node mediates day-night rhythms in Hcn4 and heart rate

Author

D'Souza, Alicia, Wang, Yanwen, Anderson, Cali, Bucchi, Annalisa, Baruscotti, Mirko, Olieslagers, Servé, Mesirca, Pietro, Johnsen, Anne Berit, Mastitskaya, Svetlana, Ni, Haibo, Zhang, Yu, Black, Nicholas, Cox, Charlotte, Wegner, Sven, Bano-Otalora, Beatriz, Petit, Cheryl, Gill, Eleanor, Logantha, Sunil Jit R.J., Dobrzynski, Halina, Ashton, Nick, Hart, George, Zhang, Rai, Zhang, Henggui, Cartwright, Elizabeth J., Wisloff, Ulrik, Mangoni, Matteo E., da Costa Martins, Paula A., Piggins, Hugh D., DiFrancesco, Dario, Boyett, Mark R., D'Souza, Alicia, Wang, Yanwen, Anderson, Cali, Bucchi, Annalisa, Baruscotti, Mirko, Olieslagers, Servé, Mesirca, Pietro, Johnsen, Anne Berit, Mastitskaya, Svetlana, Ni, Haibo, Zhang, Yu, Black, Nicholas, Cox, Charlotte, Wegner, Sven, Bano-Otalora, Beatriz, Petit, Cheryl, Gill, Eleanor, Logantha, Sunil Jit R.J., Dobrzynski, Halina, Ashton, Nick, Hart, George, Zhang, Rai, Zhang, Henggui, Cartwright, Elizabeth J., Wisloff, Ulrik, Mangoni, Matteo E., da Costa Martins, Paula A., Piggins, Hugh D., DiFrancesco, Dario, and Boyett, Mark R.

Abstract

Background: Heart rate follows a diurnal variation, and slow heart rhythms occur primarily at night. Objective: The lower heart rate during sleep is assumed to be neural in origin, but here we tested whether a day-night difference in intrinsic pacemaking is involved. Methods: In vivo and in vitro electrocardiographic recordings, vagotomy, transgenics, quantitative polymerase chain reaction, Western blotting, immunohistochemistry, patch clamp, reporter bioluminescence recordings, and chromatin immunoprecipitation were used. Results: The day-night difference in the average heart rate of mice was independent of fluctuations in average locomotor activity and persisted under pharmacological, surgical, and transgenic interruption of autonomic input to the heart. Spontaneous beating rate of isolated (ie, denervated) sinus node (SN) preparations exhibited a day-night rhythm concomitant with rhythmic messenger RNA expression of ion channels including hyperpolarization-activated cyclic nucleotide-gated potassium channel 4 (HCN4). In vitro studies demonstrated 24-hour rhythms in the human HCN4 promoter and the corresponding funny current. The day-night heart rate difference in mice was abolished by HCN block, both in vivo and in the isolated SN. Rhythmic expression of canonical circadian clock transcription factors, for example, Brain and muscle ARNT-Like 1 (BMAL1) and Cryptochrome (CRY) was identified in the SN and disruption of the local clock (by cardiomyocyte-specific knockout of Bmal1) abolished the day-night difference in Hcn4 and intrinsic heart rate. Chromatin immunoprecipitation revealed specific BMAL1 binding sites on Hcn4, linking the local clock with intrinsic rate control. Conclusion: The circadian variation in heart rate involves SN local clock–dependent Hcn4 rhythmicity. Data reveal a novel regulator of heart rate and mechanistic insight into bradycardia during sleep.

Published
2021

33. Human iPSC modelling of a familial form of atrial fibrillation reveals a gain of function of I-f and I-CaL in patient-derived cardiomyocytes

Author

Benzoni, Patrizia, Campostrini, Giulia, Landi, Sara, Bertini, Valeria, Marchina, Eleonora, Iascone, Maria, Ahlberg, Gustav, Olesen, Morten Salling, Crescini, Elisabetta, Mora, Cristina, Bisleri, Gianluigi, Muneretto, Claudio, Ronca, Roberto, Presta, Marco, Poliani, Pier Luigi, Piovani, Giovanna, Verardi, Rosanna, Pasquale, Elisa Di, Consiglio, Antonella, Raya Chamorro, Ángel, Torre, Eleonora, Lodrini, Alessandra Maria, Milanesi, Raffaella, Rocchetti, Marcella, Baruscotti, Mirko, DiFrancesco, Dario, Memo, Maurizio, Barbuti, Andrea, and Dell'Era, Patrizia

Subjects
Fibril·lació auricular, Arrítmia, Atrial fibrillation, Arrhythmia
Abstract

Aims: Atrial fibrillation (AF) is the most common type of cardiac arrhythmias, whose incidence is likely to increase with the aging of the population. It is considered a progressive condition, frequently observed as a complication of other cardiovascular disorders. However, recent genetic studies revealed the presence of several mutations and variants linked to AF, findings that define AF as a multifactorial disease. Due to the complex genetics and paucity of models, molecular mechanisms underlying the initiation of AF are still poorly understood. Here we investigate the pathophysiological mechanisms of a familial form of AF, with particular attention to the identification of putative triggering cellular mechanisms, using patient's derived cardiomyocytes (CMs) differentiated from induced pluripotent stem cells (iPSCs). Methods and results: Here we report the clinical case of three siblings with untreatable persistent AF whose whole-exome sequence analysis revealed several mutated genes. To understand the pathophysiology of this multifactorial form of AF we generated three iPSC clones from two of these patients and differentiated these cells towards the cardiac lineage. Electrophysiological characterization of patient-derived CMs (AF-CMs) revealed that they have higher beating rates compared to control (CTRL)-CMs. The analysis showed an increased contribution of the I-f and I-CaL currents. No differences were observed in the repolarizing current I-Kr and in the sarcoplasmic reticulum calcium handling. Paced AF-CMs presented significantly prolonged action potentials and, under stressful conditions, generated both delayed after-depolarizations of bigger amplitude and more ectopic beats than CTRL cells. Conclusions: Our results demonstrate that the common genetic background of the patients induces functional alterations of I-f and I-CaL currents leading to a cardiac substrate more prone to develop arrhythmias under demanding conditions. To our knowledge this is the first report that, using patient-derived CMs differentiated from iPSC, suggests a plausible cellular mechanism underlying this complex familial form of AF.

Published
2020

34. Human iPSC modeling of a familial form of atrial fibrillation reveals a gain of function of If and ICaL in patient-derived cardiomyocytes

Author

Benzoni, Patrizia, Campostrini, Giulia, Landi, Sara, Bertini, Valeria, Marchina, Eleonora, Iascone, Maria, Ahlberg, Gustav, Olesen, Morten Salling, Crescini, Elisabetta, Mora, Cristina, Bisleri, Gianluigi, Muneretto, Claudio, Ronca, Roberto, Presta, Marco, Poliani, Pier Luigi, Piovani, Giovanna, Verardi, Rosanna, Di Pasquale, Elisa, Consiglio, Antonella, Raya, Angel, Torre, Eleonora, Lodrini, Alessandra Maria, Milanesi, Raffaella, Rocchetti, Marcella, Baruscotti, Mirko, DiFrancesco, Dario, Memo, Maurizio, Barbuti, Andrea, Dell’Era, Patrizia, Benzoni, P, Campostrini, G, Landi, S, Bertini, V, Marchina, E, Iascone, M, Ahlberg, G, Olesen, M, Crescini, E, Mora, C, Bisleri, G, Muneretto, C, Ronca, R, Presta, M, Poliani, P, Piovani, G, Verardi, R, Pasquale, E, Consiglio, A, Raya, A, Torre, E, Lodrini, A, Milanesi, R, Rocchetti, M, Baruscotti, M, Difrancesco, D, Memo, M, Barbuti, A, and Dell'Era, P

Subjects
precision medicine, Induced Pluripotent Stem Cells, ion channels, hiPSC-derived cardiomyocytes, Original Articles, arrhythmia, Atrial fibrillation, Cardiac Electrophysiology and Arrhythmia, arrhythmias, BIO/09 - FISIOLOGIA, Gain of Function Mutation, ion channel, iPSC-derived cardiomyocytes, Humans, hiPSC-derived cardiomyocyte, Myocytes, Cardiac, Heart Atria, MED/05 - PATOLOGIA CLINICA
Abstract

Aims Atrial fibrillation (AF) is the most common type of cardiac arrhythmias, whose incidence is likely to increase with the aging of the population. It is considered a progressive condition, frequently observed as a complication of other cardiovascular disorders. However, recent genetic studies revealed the presence of several mutations and variants linked to AF, findings that define AF as a multifactorial disease. Due to the complex genetics and paucity of models, molecular mechanisms underlying the initiation of AF are still poorly understood. Here we investigate the pathophysiological mechanisms of a familial form of AF, with particular attention to the identification of putative triggering cellular mechanisms, using patient’s derived cardiomyocytes (CMs) differentiated from induced pluripotent stem cells (iPSCs). Methods and results Here we report the clinical case of three siblings with untreatable persistent AF whose whole-exome sequence analysis revealed several mutated genes. To understand the pathophysiology of this multifactorial form of AF we generated three iPSC clones from two of these patients and differentiated these cells towards the cardiac lineage. Electrophysiological characterization of patient-derived CMs (AF-CMs) revealed that they have higher beating rates compared to control (CTRL)-CMs. The analysis showed an increased contribution of the If and ICaL currents. No differences were observed in the repolarizing current IKr and in the sarcoplasmic reticulum calcium handling. Paced AF-CMs presented significantly prolonged action potentials and, under stressful conditions, generated both delayed after-depolarizations of bigger amplitude and more ectopic beats than CTRL cells. Conclusions Our results demonstrate that the common genetic background of the patients induces functional alterations of If and ICaL currents leading to a cardiac substrate more prone to develop arrhythmias under demanding conditions. To our knowledge this is the first report that, using patient-derived CMs differentiated from iPSC, suggests a plausible cellular mechanism underlying this complex familial form of AF., Graphical Abstract Graphical Abstract

Published
2020

35. Electrophysiology and pacemaker function of the developing sinoatrial node

Author

Baruscotti, Mirko and Robinson, Richard B.

Subjects
Pacemaker, Artificial (Heart) -- Design and construction, Electrophysiology -- Research, Sinoatrial node -- Growth, Company growth, Biological sciences
Abstract

The sinoatrial node performs its task as a cardiac impulse generator throughout the life of the organism, but this important function is not a constant. Rather, there are significant developmental changes in the expression and function of ion channels and other cellular elements, which lead to a postnatal slowing of heart rate and may be crucial to the reliable functioning of the node during maturation. In this review, we provide an overview of current knowledge regarding these changes, with the main focus placed on maturation of the ion channel expression profile. Studies on [Na.sup.+] and pacemaker currents have shown that their contribution to automaticity is greater in the newborn than in the adult, but this age-dependent decrease is at least partially opposed by an increased contribution of L-type [Ca.sup.2+] current. Whereas information regarding age-dependent changes in other transmembrane currents within the sinoatrial node are lacking, there are data on other relevant parameters. These include an increase in the nodal content of fibroblasts and in the area of nonexpression of connexin43, considered a molecular marker of nodal tissue. Although much remains to be done before a comprehensive view of the developmental biology of the node is available, important evidence in support of a molecular interpretation of developmental slowing of the intrinsic sinoatrial rate is beginning to emerge. cardiac pacemaker; development; sodium current; calcium current

Published
2007

36. Human iPSC modeling of a familial form of atrial fibrillation reveals a gain of function of If and ICaL in patient-derived cardiomyocytes

Author

Benzoni, P, Campostrini, G, Landi, S, Bertini, V, Marchina, E, Iascone, M, Ahlberg, G, Olesen, M, Crescini, E, Mora, C, Bisleri, G, Muneretto, C, Ronca, R, Presta, M, Poliani, P, Piovani, G, Verardi, R, Pasquale, E, Consiglio, A, Raya, A, Torre, E, Lodrini, A, Milanesi, R, Rocchetti, M, Baruscotti, M, Difrancesco, D, Memo, M, Barbuti, A, Dell'Era, P, Benzoni, Patrizia, Campostrini, Giulia, Landi, Sara, Bertini, Valeria, Marchina, Eleonora, Iascone, Maria, Ahlberg, Gustav, Olesen, Morten Salling, Crescini, Elisabetta, Mora, Cristina, Bisleri, Gianluigi, Muneretto, Claudio, Ronca, Roberto, Presta, Marco, Poliani, Pier Luigi, Piovani, Giovanna, Verardi, Rosanna, Pasquale, Elisa Di, Consiglio, Antonella, Raya, Angel, Torre, Eleonora, Lodrini, Alessandra Maria, Milanesi, Raffaella, Rocchetti, Marcella, Baruscotti, Mirko, DiFrancesco, Dario, Memo, Maurizio, Barbuti, Andrea, Dell'Era, Patrizia, Benzoni, P, Campostrini, G, Landi, S, Bertini, V, Marchina, E, Iascone, M, Ahlberg, G, Olesen, M, Crescini, E, Mora, C, Bisleri, G, Muneretto, C, Ronca, R, Presta, M, Poliani, P, Piovani, G, Verardi, R, Pasquale, E, Consiglio, A, Raya, A, Torre, E, Lodrini, A, Milanesi, R, Rocchetti, M, Baruscotti, M, Difrancesco, D, Memo, M, Barbuti, A, Dell'Era, P, Benzoni, Patrizia, Campostrini, Giulia, Landi, Sara, Bertini, Valeria, Marchina, Eleonora, Iascone, Maria, Ahlberg, Gustav, Olesen, Morten Salling, Crescini, Elisabetta, Mora, Cristina, Bisleri, Gianluigi, Muneretto, Claudio, Ronca, Roberto, Presta, Marco, Poliani, Pier Luigi, Piovani, Giovanna, Verardi, Rosanna, Pasquale, Elisa Di, Consiglio, Antonella, Raya, Angel, Torre, Eleonora, Lodrini, Alessandra Maria, Milanesi, Raffaella, Rocchetti, Marcella, Baruscotti, Mirko, DiFrancesco, Dario, Memo, Maurizio, Barbuti, Andrea, and Dell'Era, Patrizia

Abstract

AIMS: Atrial fibrillation (AF) is the most common type of cardiac arrhythmias, whose incidence is likely to increase with the aging of the population. It is considered a progressive condition, frequently observed as a complication of other cardiovascular disorders. However, recent genetic studies revealed the presence of several mutations and variants linked to AF, findings that define AF as a multifactorial disease. Due to the complex genetics and paucity of models, molecular mechanisms underlying the initiation of AF are still poorly understood. Here we investigate the pathophysiological mechanisms of a familial form of AF, with particular attention to the identification of putative triggering cellular mechanisms, using patient's derived cardiomyocytes (CMs) differentiated from induced pluripotent stem cells (iPSCs). METHODS AND RESULTS: Here we report the clinical case of three siblings with untreatable persistent AF whose whole-exome sequence analysis revealed several mutated genes. To understand the pathophysiology of this multifactorial form of AF we generated three iPSC clones from two of these patients and differentiated these cells towards the cardiac lineage. Electrophysiological characterization of patient-derived CMs (AF-CMs) revealed that they have higher beating rates compared to control (CTRL)-CMs. The analysis showed an increased contribution of the If and ICaL currents. No differences were observed in the repolarizing current IKr and in the sarcoplasmic reticulum calcium handling. Paced AF-CMs presented significantly prolonged action potentials and, under stressful conditions, generated both delayed after-depolarizations of bigger amplitude and more ectopic beats than CTRL cells. CONCLUSIONS: Our results demonstrate that the common genetic background of the patients induces functional alterations of If and ICaL currents leading to a cardiac substrate more prone to develop arrhythmias under demanding conditions. To our knowledge this is the first rep

Published
2020

38. Familial sinus bradycardia associated with a mutation in the cardiac pacemaker channel

Author

Milanesi, Raffaella, Baruscotti, Mirko, Gnecchi-Ruscone, Tomaso, and DiFrancesco, Dario

Subjects
Bradycardia -- Genetic aspects, Bradycardia -- Diagnosis, Pacemaker, Artificial (Heart) -- Usage
Abstract

A report on a family with a hereditary form of asymptomatic bradycardia associated with a mutation in the pacemaker-channel alpha-subunit HCN4 is presented. Functional analysis revealed that the mutant channels are activated at voltages more negative than those at which wild-type channels are activated, and hence, they supply less current during diastolic depolarization, resulting in slowing of the heart rate.

Published
2006

42. Current-dependent block of rabbit sino-atrial node [I.sub.f] channels by ivabradine

Author

Bucchi, Annalisa, Baruscotti, Mirko, and DiFrancesco, Dario

Subjects
Physiology -- Research, Heart -- Physiological aspects, Ion channels -- Research, Biological sciences, Health
Abstract

'Funny' (f-) channels have a key role in generation of spontaneous activity of pacemaker cells and mediate autonomic control of cardiac rate; f-channels and the related neuronal h-channels are composed of hyperpolarization-activated, cyclic nucleotide-gated (HCN) channel subunits. We have investigated the block of f-channels of rabbit cardiac sino-atrial node cells by ivabradine, a novel heart rate-reducing agent. Ivabradine is an open-channel blocker; however, block is exerted preferentially when channels deactivate on depolarization, and is relieved by long hyperpolarizing steps. These features give rise to use-dependent behavior. In this, the action of ivabradine on f-channels is similar to that reported of other rate-reducing agents such as UL-FS49 and ZD7288. However, other features of ivabradine-induced block are peculiar and do not comply with the hypothesis that the voltage-dependence of block is entirely attributable to either the sensitivity of ivabradine-charged molecules to the electrical field in the channel pore, or to differential affinity to different channel states, as has been proposed for UL-FS49 (DiFrancesco, D. 1994. Pflugers Arch. 427:64-70) and ZD7288 (Shin, S.K., B.S. Rotheberg, and G. Yellen. 2001. J. Gen. Physiol. 117:91-101), respectively. Experiments where current flows through channels is modified without changing membrane voltage reveal that the ivabradine block depends on the current driving force, rather than voltage alone, a feature typical of block induced in inwardly rectifying [K.sup.+] channels by intracellular cations. Bound drug molecules do not detach from the binding site in the absence of inward current through channels, even if channels are open and the drug is therefore not 'trapped' by closed gates. Our data suggest that permeation through f-channel pores occurs according to a multiion, single-file mechanism, and that block/unblock by ivabradine is coupled to ionic flow. The use-dependence resulting from specific features of [I.sub.f] block by ivabradine amplifies its rate-reducing ability at high spontaneous rates and may be useful to clinical applications. KEY WORDS: pacemaker * hyperpolarization-activated channels * block * inward rectification * single-file pores

Published
2002

44. Mammalian γ2 AMPK regulates intrinsic heart rate

Author

Yavari, Arash, Bellahcene, Mohamed, Bucchi, Annalisa, 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, Paina, Manuel, 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, Baruscotti, Mirko, DiFrancesco, Dario, Lakatta, Edward G., Watkins, Hugh, and Ashrafian, Houman

Subjects
Adult, Magnetic Resonance Spectroscopy, Science, Magnetic Resonance Imaging, Cine, AMP-Activated Protein Kinases, Article, Mice, Sarcolemma, Microscopy, Electron, Transmission, Heart Rate, Physical Conditioning, Animal, MD Multidisciplinary, Bradycardia, Animals, Humans, lcsh:Science, Exercise, Sinoatrial Node, Myocardium, Heart, Ryanodine Receptor Calcium Release Channel, Mutation, Electrocardiography, Ambulatory, Physical Endurance, lcsh:Q, Calcium
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., 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.

Published
2017

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