Disruption of the circadian clock within the cardiomyocyte influences myocardial contractile function, metabolism, and gene expression

Molly S. Bray, Chad A. Shaw, Michael W.S. Moore, Rodrigo A.P. Garcia, Melissa M. Zanquetta, David J. Durgan, William J. Jeong, Ju Yun Tsai, Heiko Bugger, Dongfang Zhang, Andreas Rohrwasser, Julie H. Rennison, Jason R.B. Dyck, Sheldon E. Litwin, Paul E. Hardin, Chi Wing Chow, Margaret P. Chandler, E. Dale Abel, Martin E. Young

Research output: Contribution to journalArticlepeer-review

281 Scopus citations


Virtually every mammalian cell, including cardiomyocytes, possesses an intrinsic circadian clock. The role of this transcriptionally based molecular mechanism in cardiovascular biology is poorly understood. We hypothesized that the circadian clock within the cardiomyocyte influences diurnal variations in myocardial biology. We, therefore, generated a cardiomyocyte-specific circadian clock mutant (CCM) mouse to test this hypothesis. At 12 wk of age, CCM mice exhibit normal myocardial contractile function in vivo, as assessed by echocardiography. Radio-telemetry studies reveal attenuation of heart rate diurnal variations and bradycardia in CCM mice (in the absence of conduction system abnormalities). Reduced heart rate persisted inCCMhearts perfused ex vivo in the working mode, highlighting the intrinsic nature of this phenotype. Wild-type, but not CCM, hearts exhibited a marked diurnal variation in responsiveness to an elevation in workload (80 mmHg plus 1 μMepinephrine) ex vivo, with a greater increase in cardiac power and efficiency during the dark (active) phase vs. the light (inactive) phase. Moreover, myocardial oxygen consumption and fatty acid oxidation rates were increased, whereas cardiac efficiency was decreased, in CCM hearts. These observations were associated with no alterations in mitochondrial content or structure and modest mitochondrial dysfunction in CCM hearts. Gene expression microarray analysis identified 548 and 176 genes in atria and ventricles, respectively, whose normal diurnal expression patterns were altered in CCM mice. These studies suggest that the cardiomyocyte circadian clock influences myocardial contractile function, metabolism, and gene expression.

Original languageEnglish (US)
Pages (from-to)H1036-H1047
JournalAmerican Journal of Physiology - Heart and Circulatory Physiology
Issue number2
StatePublished - Feb 2008
Externally publishedYes


  • Bradycardia
  • Carbohydrate
  • Chronobiology
  • Epinephrine
  • Fatty acids

ASJC Scopus subject areas

  • Physiology
  • Cardiology and Cardiovascular Medicine
  • Physiology (medical)


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