Abstract 77: The Role of Vinculin in Cardiomyocyte Adhesion and Mechanical Continuity

Abstract

Cardiomyocytes are joined end-to-end by a complex adhesive structure known as the intercalated disc (ICD). The ICD is composed of mechanical and electrical junctional complexes including the adherens junction (AJ). The core of the AJ is the cadherin/catenin complex, which links the actin cytoskeletons of neighboring cells to provide mechanical continuity. Myofibrils – the contractile machinery of the heart – are coupled to the ICD, presumably through the AJ; however, this mechanical linkage is poorly defined. Tension applied to the AJ is sensed in part through alpha-catenin, which connects the cadherin/catenin complex to actin. Force alters the conformation of alpha-catenin to reveal binding sites for actin-binding ligands, including vinculin and afadin, which are both found at the ICD. We investigated the role of alpha-catenin and its ligands in linking the AJ to actin in cardiomyocytes. Using a Förester resonance energy transfer tension-sensing module inserted into N-cadherin, we found that N-cadherin is under tension at the ICD. We then measured protein mobility of EGFP-tagged N-cadherin and found that N-cadherin dynamics were reduced at sites of myofibril integration, suggesting that myofibrils stabilize N-cadherin. To examine the composition of AJs in cardiomyocytes, we used immunofluorescence and found that vinculin and afadin were preferentially recruited to myofibril integration sites at the ICD. To further examine the linkage between AJs and myofibrils, we built a series of EGFP-tagged N-cadherin:alpha-catenin fusion constructs to delineate the individual and combined roles of alpha-catenin, vinculin and afadin. A constitutively active alpha-catenin increased vinculin recruitment and decreased the mobility of the N-cadherin fusion, suggesting that vinculin recruitment stabilizes the AJ. In contrast, restricting the AJ-actin interface to afadin reduced stability, indicating afadin alone cannot replace vinculin in linking AJs to the myofibril network. Together, our data support a model in which alpha-catenin, vinculin and afadin cooperate to anchor myofibrils at the ICD to provide mechanical continuity between cells.