Impaired Heart Contractility in Apelin Gene–Deficient Mice Associated With Aging and Pressure Overload - Archive ouverte HAL
Journal Articles Circulation Research Year : 2007

Impaired Heart Contractility in Apelin Gene–Deficient Mice Associated With Aging and Pressure Overload

Keiji Kuba
  • Function : Author
Liyong Zhang
  • Function : Author
Yumiko Imai
  • Function : Author
Sara Arab
  • Function : Author
Manyin Chen
  • Function : Author
Yuichiro Maekawa
  • Function : Author
Michael Leschnik
  • Function : Author
Andreas Leibbrandt
  • Function : Author
Mato Markovic
  • Function : Author
Julia Schwaighofer
  • Function : Author
Nadine Beetz
  • Function : Author
Renata Musialek
  • Function : Author
G. Greg Neely
  • Function : Author
Vukoslav Komnenovic
  • Function : Author
Ursula Kolm
  • Function : Author
Bernhard Metzler
  • Function : Author
Hiromitsu Hara
  • Function : Author
Arabella Meixner
  • Function : Author
Mai Nghiem
  • Function : Author
Xin Chen
  • Function : Author
Fayez Dawood
  • Function : Author
Kit Man Wong
  • Function : Author
Renu Sarao
  • Function : Author
Eva Cukerman
  • Function : Author
Akinori Kimura
  • Function : Author
Lutz Hein
  • Function : Author
Johann Thalhammer
  • Function : Author
Peter Liu
  • Function : Author
Josef Penninger
  • Function : Author

Abstract

Apelin constitutes a novel endogenous peptide system suggested to be involved in a broad range of physiological functions, including cardiovascular function, heart development, control of fluid homeostasis, and obesity. Apelin is also a catalytic substrate for angiotensin-converting enzyme 2, the key severe acute respiratory syndrome receptor. The in vivo physiological role of Apelin is still elusive. Here we report the generation of Apelin gene–targeted mice. Apelin mutant mice are viable and fertile, appear healthy, and exhibit normal body weight, water and food intake, heart rates, and heart morphology. Intriguingly, aged Apelin knockout mice developed progressive impairment of cardiac contractility associated with systolic dysfunction in the absence of histological abnormalities. We also report that pressure overload induces upregulation of Apelin expression in the heart. Importantly, in pressure overload–induced heart failure, loss of Apelin did not significantly affect the hypertrophy response, but Apelin mutant mice developed progressive heart failure. Global gene expression arrays and hierarchical clustering of differentially expressed genes in hearts of banded Apelin −/y and Apelin +/y mice showed concerted upregulation of genes involved in extracellular matrix remodeling and muscle contraction. These genetic data show that the endogenous peptide Apelin is crucial to maintain cardiac contractility in pressure overload and aging.

Dates and versions

hal-03744174 , version 1 (02-08-2022)

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Cite

Keiji Kuba, Liyong Zhang, Yumiko Imai, Sara Arab, Manyin Chen, et al.. Impaired Heart Contractility in Apelin Gene–Deficient Mice Associated With Aging and Pressure Overload. Circulation Research, 2007, 101 (4), ⟨10.1161/CIRCRESAHA.107.158659⟩. ⟨hal-03744174⟩
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