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Intracardiac fluid forces are an essential epigenetic factor for embryonic cardiogenesis

Author

Listed:
  • Jay R. Hove

    (California Institute of Technology)

  • Reinhard W. Köster

    (Biological Imaging Center, Beckman Institute
    California Institute of Technology)

  • Arian S. Forouhar

    (California Institute of Technology)

  • Gabriel Acevedo-Bolton

    (California Institute of Technology)

  • Scott E. Fraser

    (Biological Imaging Center, Beckman Institute
    California Institute of Technology)

  • Morteza Gharib

    (California Institute of Technology)

Abstract

The pattern of blood flow in the developing heart has long been proposed to play a significant role in cardiac morphogenesis. In response to flow-induced forces, cultured cardiac endothelial cells rearrange their cytoskeletal structure and change their gene expression profiles1,2. To link such in vitro data to the intact heart, we performed quantitative in vivo analyses of intracardiac flow forces in zebrafish embryos. Using in vivo imaging, here we show the presence of high-shear, vortical flow at two key stages in the developing heart, and predict flow-induced forces much greater than might have been expected for micro-scale structures at low Reynolds numbers. To test the relevance of these shear forces in vivo, flow was occluded at either the cardiac inflow or outflow tracts, resulting in hearts with an abnormal third chamber, diminished looping and impaired valve formation. The similarity of these defects to those observed in some congenital heart diseases argues for the importance of intracardiac haemodynamics as a key epigenetic factor in embryonic cardiogenesis.

Suggested Citation

  • Jay R. Hove & Reinhard W. Köster & Arian S. Forouhar & Gabriel Acevedo-Bolton & Scott E. Fraser & Morteza Gharib, 2003. "Intracardiac fluid forces are an essential epigenetic factor for embryonic cardiogenesis," Nature, Nature, vol. 421(6919), pages 172-177, January.
    • Handle: RePEc:nat:nature:v:421:y:2003:i:6919:d:10.1038_nature01282
    DOI: 10.1038/nature01282
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    Cited by:

    1. Aleksandr Vasilyev & Yan Liu & Nathan Hellman & Narendra Pathak & Iain A Drummond, 2012. "Mechanical Stretch and PI3K Signaling Link Cell Migration and Proliferation to Coordinate Epithelial Tubule Morphogenesis in the Zebrafish Pronephros," PLOS ONE, Public Library of Science, vol. 7(7), pages 1-11, July.

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