Focal adhesion kinase mediates atrial fibrosis via the AKT/S6K signaling pathway in chronic atrial fibrillation patients with rheumatic mitral valve disease

Abstract Background Atrial fibrosis, as a hallmark of atrial structural remodeling, plays a critical role in the maintenance of chronic atrial fibrillation (AF), but the mechanisms responsible for atrial fibrosis are still uncertain. Fibrogenesis represents a complex process in which focal adhesion kinase (FAK) plays an important role. Therefore, we investigated the role of FAK-mediated signaling in atrial fibrosis in patients with chronic AF related to rheumatic mitral valve disease (RMVD). Methods Atrial appendages were excised from 45 patients with RMVD and either chronic AF (n = 25, AF > 6 months) or sinus rhythm (n = 20). Fibrosis was assessed by histology, and FAK and its two downstream pathways (AKT/S6K and ERK1/2) were evaluated by western blotting. We further evaluated the role of FAK in fibrogenesis by culturing neonatal rat cardiac fibroblasts to determine the importance of FAK-regulated signaling in cardiac myofibroblast differentiation induced by transforming growth factor-β1 (TGFβ1). Results Our study revealed that FAK can regulate its downstream signaling to cause fibrosis in atrial tissue and activate isolated fibroblasts. Histology revealed a significant increase in atrial fibrosis in AF patients. The phosphorylation of FAK and its downstream AKT/S6K signaling was increased secondary to TGFβ1-induced high expression of α-SMA, a marker of myofibroblast activity. FAK and AKT inhibitors suppressed α-SMA expression in TGFβ1-induced fibroblasts. However, ERK1/2 signaling seemed to be unrelated to the fibrotic process in AF patients. Conclusion The FAK-mediated AKT/S6K signaling pathway participated in atrial fibrogenesis and this finding may contribute to the prevention of atrial fibrosis associated with chronic AF in patients with underlying cardiac disease.