The type 1 ryanodine receptor (RyR1) on the sarcoplasmic reticulum (SR) is the major calcium (Ca2+) release channel required for skeletal muscle excitation–contraction (EC) coupling. RyR1 function is modulated by proteins that bind to its large cytoplasmic scaffold domain, including the FK506 binding protein (FKBP12) and PKA. PKA is activated during sympathetic nervous system (SNS) stimulation. We show that PKA phosphorylation of RyR1 at Ser2843 activates the channel by releasing FKBP12. When FKB12 is bound to RyR1, it inhibits the channel by stabilizing its closed state. RyR1 in skeletal muscle from animals with heart failure (HF), a chronic hyperadrenergic state, were PKA hyperphosphorylated, depleted of FKBP12, and exhibited increased activity, suggesting that the channels are “leaky.” RyR1 PKA hyperphosphorylation correlated with impaired SR Ca2+ release and early fatigue in HF skeletal muscle. These findings identify a novel mechanism that regulates RyR1 function via PKA phosphorylation in response to SNS stimulation. PKA hyperphosphorylation of RyR1 may contribute to impaired skeletal muscle function in HF, suggesting that a generalized EC coupling myopathy may play a role in HF.
PKA phosphorylation activates the calcium release channel (ryanodine receptor) in skeletal muscle : defective regulation in heart failure
C. Ward's present address is University of Maryland School of Nursing, Baltimore, MD.
Abbreviations used in this paper: EC, excitation–contraction; HF, heart failure; LV, left ventricular, mAKAP, muscle A-kinase anchoring protein; Po, open probability; PP1, protein phosphatase 1; RyR, ryanodine receptor; RyR1, type 1 RyR; SNS, sympathetic nervous system; SR, sarcoplasmic reticulum; VGCC, voltage-gated Ca2+ channel; WT, wild type.
Steven Reiken, Alain Lacampagne, Hua Zhou, Aftab Kherani, Stephan E. Lehnart, Chris Ward, Fannie Huang, Marta Gaburjakova, Jana Gaburjakova, Nora Rosemblit, Michelle S. Warren, Kun-lun He, Geng-hua Yi, Jie Wang, Daniel Burkhoff, Guy Vassort, Andrew R. Marks; PKA phosphorylation activates the calcium release channel (ryanodine receptor) in skeletal muscle : defective regulation in heart failure . J Cell Biol 17 March 2003; 160 (6): 919–928. doi: https://doi.org/10.1083/jcb.200211012
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