Michael R. Rosen scite author profile

Background-Ca2ϩ leak from the sarcoplasmic reticulum (SR) may play an important role in triggering and/or maintaining atrial arrhythmias, including atrial fibrillation (AF). Protein kinase A (PKA) hyperphosphorylation of the cardiac ryanodine receptor (RyR2) resulting in dissociation of the channel-stabilizing subunit calstabin2 (FK506-binding protein or FKBP12.6) causes SR Ca 2ϩ leak in failing hearts and can trigger fatal ventricular arrhythmias. Little is known about the role of RyR2 dysfunction in AF, however. Methods and Results-Left and right atrial tissue was obtained from dogs with AF induced by rapid right atrial pacing (nϭ6 for left atrial, nϭ4 for right atrial) and sham instrumented controls (nϭ6 for left atrial, nϭ4 for right atrial). Right atrial tissue was also collected from humans with AF (nϭ10) and sinus rhythm (nϭ10) and normal cardiac function. PKA phosphorylation of immunoprecipitated RyR2 was determined by back-phosphorylation and by immunoblotting with a phosphospecific antibody. The amount of calstabin2 bound to RyR2 was determined by coimmunoprecipitation. RyR2 channel currents were measured in planar lipid bilayers. Atrial tissue from both the AF dogs and humans with chronic AF showed a significant increase in PKA phosphorylation of RyR2, with a corresponding decrease in calstabin2 binding to the channel. Channels isolated from dogs with AF exhibited increased open probability under conditions simulating diastole compared with channels from control hearts, suggesting that these AF channels could predispose to a diastolic SR Ca 2ϩ leak. Conclusions-SR Ca 2ϩ leak due to RyR2 PKA hyperphosphorylation may play a role in initiation and/or maintenance of

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Michael R. Rosen

Pathophysiology and Prevention of Atrial Fibrillation

Application of blebbistatin as an excitation–contraction uncoupler for electrophysiologic study of rat and rabbit hearts

Defective Cardiac Ryanodine Receptor Regulation During Atrial Fibrillation

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