Abstract
Introduction: Heart failure (HF) frequently causes atrial fibrillation (AF) and focal sources of unknown mechanism have been implicated. Here, we studied the potential role and molecular mechanisms of Ca 2+ handling abnormalities. Methods: Ca 2+ handling (microfluorescence, Indo-1 AM) and related protein expression (Western blot) were assessed in left atria of 20 dogs with ventricular tachypacing (240 bpm × 2 wks)-induced HF and 20 controls (CTLs). Whole-cell perforated-patch was used to record action potentials (APs), delayed afterdepolarizations (DADs) and triggered activity. Results : HF increased [Ca 2+ ] i transient amplitude from 239±24 to 444±43* nM (*P<0.05), and [Ca 2+ ] i release by 10 mM local caffeine puffs (an index of SR Ca 2+ content) from 849±71 (CTL) to 1574±169* nM (HF). Spontaneous Ca 2+ release events increased from 1.8±0.5 (CTL) to 10.7±2.1* events/run (HF). HF significantly increased APD (by ~40% at 1 Hz). DADs and triggered activity were more common in HF (15.2±2.6 triggered APs/run, vs CTL 0.4±0.2*), and were abolished by ryanodine (10 μM), but not by the I f -blocker Cs + (2 mM). HF caused profound changes in protein expression of key Ca 2+ handling and regulatory proteins (Table ). Calsequestrin, the major SR Ca 2+ -binding protein, was reduced by 32%*. Fractional RYR2 PKA (Ser2809) phosphorylation decreased by 63%*, whereas CaMKII (Ser2815) RYR2 phosphorylation increased by 221%*. The catalytic and regulatory (RII) PKA subunits were downregulated by 15%* and 73%*, whereas expression and autophosphorylation (Thr287) of CaMKIIδ were increased by 45%* and 81%* respectively. NCX1, SERCA and total, PKA and CaMKII phosphorylated SERCA-regulatory phospholamban were unchanged by HF. Conclusions: HF causes profound changes in regulation and expression of atrial Ca 2+ handling proteins, producing increased SR Ca 2+ load and release, along with DADs and triggered activity that may account for focal mechanisms that initiate and/or sustain HF-related AF.
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