Frontiers in Cardiovascular Medicine (Nov 2022)

Activin A directly impairs human cardiomyocyte contractile function indicating a potential role in heart failure development

  • Scott MacDonnell,
  • Jake Megna,
  • Qin Ruan,
  • Olivia Zhu,
  • Gabor Halasz,
  • Dan Jasewicz,
  • Kristi Powers,
  • Hock E,
  • Maria del Pilar Molina-Portela,
  • Ximei Jin,
  • Dongqin Zhang,
  • Justin Torello,
  • Nicole T. Feric,
  • Michael P. Graziano,
  • Akshay Shekhar,
  • Michael E. Dunn,
  • David Glass,
  • Lori Morton

DOI
https://doi.org/10.3389/fcvm.2022.1038114
Journal volume & issue
Vol. 9

Abstract

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Activin A has been linked to cardiac dysfunction in aging and disease, with elevated circulating levels found in patients with hypertension, atherosclerosis, and heart failure. Here, we investigated whether Activin A directly impairs cardiomyocyte (CM) contractile function and kinetics utilizing cell, tissue, and animal models. Hydrodynamic gene delivery-mediated overexpression of Activin A in wild-type mice was sufficient to impair cardiac function, and resulted in increased cardiac stress markers (N-terminal pro-atrial natriuretic peptide) and cardiac atrophy. In human-induced pluripotent stem cell-derived (hiPSC) CMs, Activin A caused increased phosphorylation of SMAD2/3 and significantly upregulated SERPINE1 and FSTL3 (markers of SMAD2/3 activation and activin signaling, respectively). Activin A signaling in hiPSC-CMs resulted in impaired contractility, prolonged relaxation kinetics, and spontaneous beating in a dose-dependent manner. To identify the cardiac cellular source of Activin A, inflammatory cytokines were applied to human cardiac fibroblasts. Interleukin -1β induced a strong upregulation of Activin A. Mechanistically, we observed that Activin A-treated hiPSC-CMs exhibited impaired diastolic calcium handling with reduced expression of calcium regulatory genes (SERCA2, RYR2, CACNB2). Importantly, when Activin A was inhibited with an anti-Activin A antibody, maladaptive calcium handling and CM contractile dysfunction were abrogated. Therefore, inflammatory cytokines may play a key role by acting on cardiac fibroblasts, causing local upregulation of Activin A that directly acts on CMs to impair contractility. These findings demonstrate that Activin A acts directly on CMs, which may contribute to the cardiac dysfunction seen in aging populations and in patients with heart failure.

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