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Cardiac physiologic regulation of sub-type specific adrenergic receptors in transgenic mice overexpressing β1- and β2-adrenergic receptors.

  • Kim, Ka Eul (Department of Biomedical Science, Research Institute of Bioscience and Biotechnology, Hallym University) ;
  • Tae, Hyun-Jin (Department of Biomedical Science, Research Institute of Bioscience and Biotechnology, Hallym University) ;
  • Natalia, Petrashevskaya (CardioPulmonary Genomics Program, Departments of Medicine and Physiology, University of Maryland School of Medicine) ;
  • Lee, Jae-Chul (Department of Neurobiology, Kangwon National University School of Medicine) ;
  • Ahn, Ji Hyeon (Department of Neurobiology, Kangwon National University School of Medicine) ;
  • Park, Joon Ha (Department of Neurobiology, Kangwon National University School of Medicine) ;
  • Kim, In Hye (Department of Neurobiology, Kangwon National University School of Medicine) ;
  • Ohk, Taek Geun (Department of Emergency Medicine, Kangwon National University School of Medicine) ;
  • Park, Chan Woo (Department of Emergency Medicine, Kangwon National University School of Medicine) ;
  • Cho, Jun Hwi (Department of Emergency Medicine, Kangwon National University School of Medicine) ;
  • Won, Moo-Ho (Department of Neurobiology, Kangwon National University School of Medicine)
  • Received : 2016.03.30
  • Accepted : 2016.05.10
  • Published : 2016.09.30

Abstract

Objective Combination of ${\beta}_1-adrenergic$ receptor (AR) blockade and ${\beta}_2-AR$ activation might be a potential novel therapy for treating heart failure. However, use of ${\beta}-AR$ agonists and/or antagonists in the clinical setting is controversial because of the lack of information on cardiac inotropic or chronotropic regulation by AR signaling. Methods In this study, we performed hemodynamic evaluation by examining force frequency response (FFR), Frank-Starling relationship, and response to a non-selective ${\beta}-AR$ agonist (isoproterenol) in hearts isolated from 6-month-old transgenic (TG) mice overexpressing ${\beta}_1-$ and ${\beta}_2-ARs$ (${\beta}_1-$ and ${\beta}_2-AR$ TG mice, respectively). Results Cardiac physiologic consequences of ${\beta}_1-$ and ${\beta}_2-AR$ overexpression resulted in similar maximal response to isoproterenol and faster temporary decline of positive inotropic response in ${\beta}_2-AR$ TG mice. ${\beta}_1-AR$ TG mice showed a pronounced negative limb of FFR, whereas ${\beta}_2-AR$ TG mice showed high stimulation frequencies with low contractile depression during FFR. In contrast, Frank-Starling relationship was equally enhanced in both ${\beta}_1-$ and ${\beta}_2-AR$ TG mice. Conclusion Hemodynamic evaluation performed in the present showed a difference in ${\beta}_1-$ and ${\beta}_2-AR$ signaling, which may be due to the difference in the desensitization of ${\beta}_1-$ and ${\beta}_2-ARs$.

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Acknowledgement

Supported by : National Research Foundation of Korea (NRF), NIH