Alpha actin isoforms expression in human and rat adult cardiac conduction system

In the adult heart, cardiac muscle comprises the working myocardium and the conduction system (CS). The latter includes the sinoatrial node (SAN), the internodal tract or bundle (IB), the atrioventricular node (AVN), the atrioventricular bundle (AVB), the bundle branches (BB) and the peripheral Purkinje fibers (PF). Most of the information concerning the phenotypic features of CS tissue derives from the characterization of avian and rodent developing hearts; data concerning the expression of actin isoforms in adult CS cardiomyocytes are scarce. Using specific antibodies, we investigated the distribution of α-skeletal (α-SKA), α-cardiac (α-CA), α-smooth muscle (α-SMA) actin isoforms and other muscle-typical proteins in the CS of human and rat hearts at different ages. SAN and IB cardiomyocytes were characterized by the presence of α-SMA, α-CA, calponin and caldesmon, whereas α-SKA and vimentin were absent. Double immunofluorescence demonstrated the co-localisation of α-SMA and α-CA in I-bands of SAN cardiomyocytes. AVN, AVB, BB and PF cardiomyocytes were α-SMA, calponin, caldesmon and vimentin negative, and α-CA and α-SKA positive. No substantial differences in actin isoform distribution were observed in human and rat hearts, except for the presence of isolated subendocardial α-SMA positive cardiomyocytes co-expressing α-CA in the ventricular septum of the rat. Aging did not influence CS cardiomyocyte actin isoform expression profile. These findings support the concept that cardiomyocytes of SAN retain the phenotype of a developing myogenic cell throughout the entire life span.