Abstract 9022: Chronic Beta3-Adrenergic Receptor Antagonist Therapy Rescues Diabetic Cardiomyopathy Through Ca 2+ /Calmodulin-Dependent Protein Kinase II Inhibition in a Type II Diabetes Murine Model

Abstract

Background: Recent evidence showed that CaMKII inhibition with KN93 protects against diabetic cardiomyopathy (DCM). However, the off-target effects have limited its use. There are no CaMKII inhibitors available clinically. It may be best to use some complementary approaches for CaMKII inhibition. Previously we showed that diabetes produced upregulation of cardiac β 3 -AR-mediated inhibitory pathway promoting DCM progression. There is a significant crosstalk between β-AR signaling and CaMKII activation presenting CaMKII as a possible downstream mediator of detrimental β 3 -AR signaling in DCM. It is possible that the benefit of β 3 -AR antagonists (β 3 ANT) might involve modulation of CaMKII. We tested the hypothesis that chronic L-748-337, a selective β 3 ANT may inhibit CaMKII activity and limit DCM. Methods: LV myocyte CaMKIIδ expression and activity and myocyte function were determined in 3 groups (7/group) wild-type female mice over 14 weeks (W): Type 2 DM ( T2 ), 14 W fed high-fat diet (HFD), but after HFD for 4 W receiving streptozotocin (STZ, 40 mg/kg/day, i.p. 5 days); T2β 3 ANT , T2 mice at 10 W received L-748,337 (10 -7 M/kg/day, mini-pump) for 4 W; and Vehicle controls (C). Results: Versus C, T2 diabetes was induced in mice received HFD and low dose STZ with significantly elevated blood glucose. But only T2 myocytes had significantly increased protein levels of CaMKIIδ (T2: 29%, 0.53 vs C: 0.41) and CaMKIIδ phosphorylation (at Thr287) (PCaMKIIδ) (79%, 0.52 vs 0.29) followed by significantly reduced cell contraction (dL/dt max , 75 vs 134 μm/s), relaxation (dR/dt max , 60 vs 114 μ m/s) and [Ca 2+ ] iT (0.16 vs 0.21). The isoproterenol (ISO, 10 -8 M)-stimulated increases in dL/dt max (38% vs 58%), dR/dt max and [Ca 2+ ] iT (19% vs 30%) were also significantly reduced. By contrary, versus C, T2β 3 ANT myocytes had similar levels of CaMKIIδ (0.37) and PCaMKIIδ (0.31) with preserved cell contractility (131 μm/s), relaxation (109 μm/s) and [Ca 2+ ] iT (0.21). ISO caused increases in dL/dt max (57%), dR/dt max (52%) and [Ca 2+ ] iT (30%) were also closed to control values. Conclusions: Chronic β 3 ANT prevents Type II diabetes-caused upregulation of cardiac CaMKIIδ, thereby leading to the preservation of normal myocyte function, [Ca 2+ ] iT , and β-adrenergic reserve in a DCM murine model.