Abstract

A rhythmic heart beat is coordinated by the pace making action potentials of the cardiac conduction system. Our retroviral cell lineage studies of the chick embryo have demonstrated conclusively that impulse-conducting cells differentiate from working myocytes and are induced by local signals derived from the endocardial and coronary vasculature. To date, only the vascular cytokine endothelin (ET) has been demonstrated to induce embryonic myocytes to differentiate into Purkinje fibers. This ET-induced Purkinje fiber differentiation is mediated by binding of ET to its G protein-coupled receptors expressed by myocytes. Strikingly, the ability of myocytes to convert their phenotype in response to ET declines as embryos mature, concurrent with a gradual decrease in the expression of the receptor; adult myocytes respond to ET by becoming hypertrophic. In addition, we have found for the first time that myocytes undergoing Purkinje fiber differentiation express at least two factors similar to myoD/myogenin members of the bHLH transcription factor gene family. Finally, murine Purkinje fibers differentiate exclusively along the endocardium, suggesting that mammalian as well as avian species, exhibit endothelial-myocyte interactions during Purkinje fiber differentiation. These data lead to the central hypotheses that: a) signals from endothelial cells recruit embryonic myocytes to a conduction cell fate in both mammalian and avian species; b) this inductive responsiveness is controlled by the developmentally regulated expression of ET-receptors; and c) the conversion from myocyte to conducting fiber involves transcriptional regulation distinct from that of working myocytes. We will test these three specific hypotheses by: 1 ) testing the necessity of endothelial cell-derived signals in conduction cell development of the mouse heart; 2) determining the role of ET-receptors in the developmentally regulated potential of myocyte to Purkinje fiber conversion; and 3) creating an ectopic site of myoD/myogenin-like transcription factor expression in the developing heart and assaying Purkinje fiber gene expression in vivo to determine their requirement for conduction cell differentiation. The studies proposed here will identify the regulators of three critical mechanisms in establishing the Purkinje fiber network and build a foundation for rational therapeutics for conduction disorder in adults.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Heart, Lung, and Blood Institute (NHLBI)
Type
Research Project (R01)
Project #
5R01HL054128-07
Application #
6526742
Study Section
Cell Development and Function Integrated Review Group (CDF)
Program Officer
Pearson, Gail D
Project Start
1996-08-01
Project End
2006-07-31
Budget Start
2002-08-01
Budget End
2003-07-31
Support Year
7
Fiscal Year
2002
Total Cost
$339,000
Indirect Cost

  Institution

Name
Weill Medical College of Cornell University
Department
Anatomy/Cell Biology
Type
Schools of Medicine
DUNS #
201373169
City
New York
State
NY
Country
United States
Zip Code
10065

  Publications

Pennisi, David J; Mikawa, Takashi (2009) FGFR-1 is required by epicardium-derived cells for myocardial invasion and correct coronary vascular lineage differentiation. Dev Biol 328:148-59
Pennisi, David J; Mikawa, Takashi (2005) Normal patterning of the coronary capillary plexus is dependent on the correct transmural gradient of FGF expression in the myocardium. Dev Biol 279:378-90
Ishii, Yasuo; Mikawa, Takashi (2005) Somatic transgenesis in the avian model system. Birth Defects Res C Embryo Today 75:19-27
Hall, Christopher E; Hurtado, Romulo; Hewett, Kenneth W et al. (2004) Hemodynamic-dependent patterning of endothelin converting enzyme 1 expression and differentiation of impulse-conducting Purkinje fibers in the embryonic heart. Development 131:581-92
Xaymardan, Munira; Tang, Lilong; Zagreda, Leze et al. (2004) Platelet-derived growth factor-AB promotes the generation of adult bone marrow-derived cardiac myocytes. Circ Res 94:E39-45
Pennisi, David J; Ballard, Victoria L T; Mikawa, Takashi (2003) Epicardium is required for the full rate of myocyte proliferation and levels of expression of myocyte mitogenic factors FGF2 and its receptor, FGFR-1, but not for transmural myocardial patterning in the embryonic chick heart. Dev Dyn 228:161-72
Hyer, Jeanette; Kuhlman, Julie; Afif, Evelyn et al. (2003) Optic cup morphogenesis requires pre-lens ectoderm but not lens differentiation. Dev Biol 259:351-63
Kelly, Kristine A; Wei, Yan; Mikawa, Takashi (2002) Cell death along the embryo midline regulates left-right sidedness. Dev Dyn 224:238-44
Kanzawa, Nobuyuki; Poma, Clifton P; Takebayashi-Suzuki, Kimiko et al. (2002) Competency of embryonic cardiomyocytes to undergo Purkinje fiber differentiation is regulated by endothelin receptor expression. Development 129:3185-94
Ballard, Victoria L T; Mikawa, Takashi (2002) Constitutive expression of preproendothelin in the cardiac neural crest selectively promotes expansion of the adventitia of the great vessels in vivo. Dev Biol 251:167-77

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