The International Journal of Developmental Biology

Int. J. Dev. Biol. 58: 649 - 662 (2014)

https://doi.org/10.1387/ijdb.140188dp

Vol 58, Issue 9

Structure and function of gap junction proteins: role of gap junction proteins in embryonic heart development

Review | Published: 12 March 2015

Bhavesh K. Ahir1 and Margaret K. Pratten*,2

1National Center for Computational Toxicology (B205-01), U.S. Environmental Protection Agency, Research Triangle Park, North Carolina, USA and 2School of Life Sciences, Queen’s Medical Centre, University of Nottingham, Nottingham, UK

Abstract

Intercellular (cell-to-cell) communication is a crucial and complex mechanism during embryonic heart development. In the cardiovascular system, the beating of the heart is a dynamic and key regulatory process, which is functionally regulated by the coordinated spread of electrical activity through heart muscle cells. Heart tissues are composed of individual cells, each bearing specialized cell surface membrane structures called gap junctions that permit the intercellular exchange of ions and low molecular weight molecules. Gap junction channels are essential in normal heart function and they assist in the mediated spread of electrical impulses that stimulate synchronized contraction (via an electrical syncytium) of cardiac tissues. This present review describes the current knowledge of gap junction biology. In the first part, we summarise some relevant biochemical and physiological properties of gap junction proteins, including their structure and function. In the second part, we review the current evidence demonstrating the role of gap junction proteins in embryonic development with particular reference to those involved in embryonic heart development. Genetics and transgenic animal studies of gap junction protein function in embryonic heart development are considered and the alteration/disruption of gap junction intercellular communication which may lead to abnormal heart development is also discussed.

Keywords

intercellular communication, heart development, embryogenesis, teratogenicity, embryotoxicity

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