Abstract

N-cadherin is a transmembrane Ca(2+)-dependent glycoprotein that is part of adherens junctions. It functions with the cell adhesion N-terminal extracellular domain as a site of homophilic cell-cell contacts. The intracellular C-terminal domain provides via a catenin complex the interaction with the cytoskeleton. Ectopic expression of chicken N-cadherin in adult rat cardiomyocytes (ARC) in culture was obtained after microinjection into non-dividing cardiomyocytes; it was demonstrated that the exogenous protein colocalized with the endogenous N-cadherin at the plasma membrane of the cell and formed contact sites. A dominant negative chicken N-cadherin mutant was constructed by a large deletion of the extracellular domain. This mutant was expressed and inhibited the function of the endogenous rat N-cadherin probably by competing for the catenin complex binding domain, which is essential for the formation of a stable cell-cell contact of ARC. The injected cells lost contact with neighbouring cells and retracted; the connexons of the gap junctions were pulled out as well. This could be avoided by another N-cadherin mutation, which, in addition to the N-terminal truncation, contained a deletion of the catenin binding domain. In the case of the truncated N-cadherin at the N terminus, the sarcomeric structure of the myofibrils of ARC was also affected. Myofibrils were the most vulnerable cytoskeletal structures affected by the overexpressed dominant negative N-cadherin mutation. Similar behaviour was shown when cardiomyocytes separated following Ca2+ depletion and when new cell-cell contacts were formed after Ca2+ replenishment. N-cadherin is thought to be the essential component for establishing new cell-cell contacts which eventually led to a new formation of intercalated disc-like structures in the cardiac cell culture.

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