Paracrine signalling by cardiac calcitonin controls atrial fibrogenesis and arrhythmia

Atrial fibrillation, the most common cardiac arrhythmia, is an important contributor to mortality and morbidity, and particularly to the risk of stroke in humans 1 . Atrial-tissue fibrosis is a central pathophysiological feature of atrial fibrillation that also hampers its treatment; the underlying...

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Veröffentlicht in:Nature (London) 2020-11, Vol.587 (7834), p.460-465
Hauptverfasser: Moreira, Lucia M., Takawale, Abhijit, Hulsurkar, Mohit, Menassa, David A., Antanaviciute, Agne, Lahiri, Satadru K., Mehta, Neelam, Evans, Neil, Psarros, Constantinos, Robinson, Paul, Sparrow, Alexander J., Gillis, Marc-Antoine, Ashley, Neil, Naud, Patrice, Barallobre-Barreiro, Javier, Theofilatos, Konstantinos, Lee, Angela, Norris, Mary, Clarke, Michele V., Russell, Patricia K., Casadei, Barbara, Bhattacharya, Shoumo, Zajac, Jeffrey D., Davey, Rachel A., Sirois, Martin, Mead, Adam, Simmons, Alison, Mayr, Manuel, Sayeed, Rana, Krasopoulos, George, Redwood, Charles, Channon, Keith M., Tardif, Jean-Claude, Wehrens, Xander H. T., Nattel, Stanley, Reilly, Svetlana
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Sprache:eng
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Zusammenfassung:Atrial fibrillation, the most common cardiac arrhythmia, is an important contributor to mortality and morbidity, and particularly to the risk of stroke in humans 1 . Atrial-tissue fibrosis is a central pathophysiological feature of atrial fibrillation that also hampers its treatment; the underlying molecular mechanisms are poorly understood and warrant investigation given the inadequacy of present therapies 2 . Here we show that calcitonin, a hormone product of the thyroid gland involved in bone metabolism 3 , is also produced by atrial cardiomyocytes in substantial quantities and acts as a paracrine signal that affects neighbouring collagen-producing fibroblasts to control their proliferation and secretion of extracellular matrix proteins. Global disruption of calcitonin receptor signalling in mice causes atrial fibrosis and increases susceptibility to atrial fibrillation. In mice in which liver kinase B1 is knocked down specifically in the atria, atrial-specific knockdown of calcitonin promotes atrial fibrosis and increases and prolongs spontaneous episodes of atrial fibrillation, whereas atrial-specific overexpression of calcitonin prevents both atrial fibrosis and fibrillation. Human patients with persistent atrial fibrillation show sixfold lower levels of myocardial calcitonin compared to control individuals with normal heart rhythm, with loss of calcitonin receptors in the fibroblast membrane. Although transcriptome analysis of human atrial fibroblasts reveals little change after exposure to calcitonin, proteomic analysis shows extensive alterations in extracellular matrix proteins and pathways related to fibrogenesis, infection and immune responses, and transcriptional regulation. Strategies to restore disrupted myocardial calcitonin signalling thus may offer therapeutic avenues for patients with atrial fibrillation. Heart atria produce a large pool of calcitonin (previously well-recognized as a thyroid-secreted hormone with roles in calcium and bone metabolism) that in the heart acts as a paracrine signal controlling atrial fibrosis and fibrillation.
ISSN:0028-0836
1476-4687
DOI:10.1038/s41586-020-2890-8