Atrial local Ca signaling and inositol 1,4,5-trisphosphate receptors

In atrial myocytes lacking t-tubules, action potential triggers junctional Ca²⁺ releases in the cell periphery, which propagates into the cell interior. The present article describes growing evidence on atrial local Ca²⁺ signaling and on the functions of inositol 1,4,5-trisphosphate receptors (IP₃Rs) in atrial myocytes, and show our new findings on the role of IP₃R subtype in the regulation of spontaneous focal Ca²⁺ releases in the compartmentalized areas of atrial myocytes. The Ca²⁺ sparks, representing focal Ca²⁺ releases from the sarcoplasmic reticulum (SR) through the ryanodine receptor (RyR) clusters, occur most frequently at the peripheral junctions in isolated resting atrial cells. The Ca²⁺ sparks that were darker and longer lasting than peripheral and non-junctional (central) sparks, were found at peri-nuclear sites in rat atrial myocytes. Peri-nuclear sparks occurred more frequently than central sparks. Atrial cells express larger amounts of IP₃Rs compared with ventricular cells and possess significant levels of type 1 IP₃R (IP₃R1) and type 2 IP₃R (IP₃R2). Over the last decade the roles of atrial IP₃R on the enhancement of Ca²⁺-induced Ca²⁺ release and arrhythmic Ca²⁺ releases under hormonal stimulations have been well documented. Using protein knock-down method and confocal Ca²⁺ imaging in conjunction with immunocytochemistry in the adult atrial cell line HL-1, we could demonstrate a role of IP₃R1 in the maintenance of peri-nuclear and non-junctional Ca²⁺ sparks via stimulating a posttranslational organization of RyR clusters.