Intercalated discs and arrhythmogenic cardiomyopathy.

Abstract

Heart tissue is subjected to high mechanical stress. Different junctional complexes exist within the intercalated disc (ID) at the site of end-to-end contacts between cardiomyocytes. These junctions are essential for adhesive integrity, morphogenesis, differentiation, and maintenance of cardiac tissue. Recent findings of molecular interactions among intercellular adhesion molecules, gap junctions, and the voltage-gated sodium channel complex suggest that IDs should be considered an organelle in which macromolecular complexes interact specifically to maintain cardiac structure and cardiomyocyte synchrony. It is within this organelle that most of the mutated proteins involved in arrhythmogenic right ventricular cardiomyopathy (ARVC) reside. This inherited cardiomyopathy is characterized by both structural and electric abnormalities of the heart, particularly in young people and athletes. This review highlights recent advances in understanding the link between ID alterations and the molecular genetics and pathogenesis of ARVC. Cardiomyocytes are extensively interconnected at their ends through their IDs, a complex region composed of different kinds of intercellular junctions essential for electric, mechanical, and signaling communication between adjacent cells and, hence, for maintaining correct heart function and growth. Although traditionally depicted as a composition of different separate units, recent data indicate that the ID of cardiomyocytes should be considered a single functional unit in which macromolecular complexes interact mechanically and electrically to maintain cardiomyocyte rigidity and synchrony. The ID in vertebrates was originally described as consisting of 3 main junctional complexes: desmosomes, adherens junctions (AJ, also called fascia adherens in cardiac muscle), and gap junctions. It has been proposed that while gap junctions, being essential for chemical and electric coupling of neighboring cells, represent the electric component of ID, desmosomes together with AJ form the mechanical intercellular junctions in cardiomyocytes.1 Desmosomes and AJ are highly specialized anchoring junctions. They are particularly important for maintenance of adhesion and integrity of tissues exposed to …