New molecular components supporting ryanodine receptor-mediated Ca 2+ release: Roles of junctophilin and TRIC channel in embryonic cardiomyocytes

Abstract

Ca 2+ mobilization from intracellular stores is mediated by Ca 2+ release channels, designated ryanodine and IP 3 receptors, and directly regulates important cellular reactions including muscle contraction, endo/exocrine secretion, and neural excitability. In order to function as an intracellular store, the endo/sarcoplasmic reticulum is equipped with cooperative Ca 2+ uptake, storage and release machineries, comprising synergic collaborations among integral-membrane, cytoplasmic and luminal proteins. Our recent studies have demonstrated that junctophilins form junctional membrane complexes between the plasma membrane and the endo/sarcoplasmic reticulum in excitable cells, and that TRIC ( trimeric intracellular cation) channels act as novel monovalent cation-specific channels on intracellular membrane systems. Knockout mice have provided evidence that both junctophilins and TRIC channels support efficient ryanodine receptor-mediated Ca 2+ release in muscle cells. This review focuses on cardiac Ca 2+ release by discussing pathological defects of mutant cardiomyocytes lacking ryanodine receptors, junctophilins, or TRIC channels.