Abstract
Heart failure features decreased electron transport chain (ETC) activity in cardiomyocyte mitochondria. Previous studies have demonstrated that alpha-1A adrenergic receptor (α1A-AR) activation increases cardiac contractility in the failing heart. However, α1A-AR activation as a method of ETC regulation following cardiac injury has not been studied. Here, we assessed the hypothesis that α1A-AR activation increases ETC activity following myocardial infarction (MI) induced by left coronary artery ligation. We measured cardiac contractility using echocardiography at baseline and 7 days after MI in male CL57Bl/6J mice receiving the selective α1A-AR agonist A61603 (10 ng/kg/d) (n = 8) or vehicle (0.9% saline) (n = 9) via subcutaneous osmotic minipumps (Panel A). We then profiled citrate synthase (CS), a key enzyme in the citric acid cycle and common marker for mitochondrial mass, and ETC Complex I-IV activities in ventricular lysates. ETC enzyme activities were normalized to CS to define ETC capacity on a per mitochondrion basis. On Day 0, there were no differences in fractional shortening between groups (Panel B, 46 ± 3% vs. 49 ± 3%, p = 0.27) (mean ± SEM). On Day 7, fractional shortening was preserved in A6-treated mice compared to vehicle controls (Panel B, 24 ± 3% vs. 14 ± 1%, p = 0.01). A6 decreased CS activity compared to vehicle controls (Panel C, 11,024 ± 1,035 vs. 15,966 ± 1,068 nmol/mg/min, p < 0.01). When normalized to CS activity, A6 increased Complex I (16 ± 2% vs. 7 ± 1%, p < 0.01) (1,584 ± 116 vs. 1,106 ± 154 nmol/min/mg), Complex III (82 ± 8% vs. 56 ± 5%, p = 0.01) (8,435 ± 461 vs. 8,542 ± 327 nmol/min/mg), and Complex IV (121 ± 12% vs. 92 ± 9.%, p = 0.04) (12,523 ± 673 vs. 14,174 ± 1,156) activities (Panel D), suggesting enhanced ETC activity on a per mitochondrion basis. In conclusion, we show that a low dose of a selective α1A-AR agonist enhances cardiac contractility following MI. Increased ETC enzyme activity, particularly Complex I, may contribute to this beneficial effect. Ours is the first study in which selective α1A-AR activation has been linked to enhanced cardiac contractility and mitochondrial metabolism following MI. These findings may outline a novel mechanism through which α1A-AR activation preserves cardiac function in the injured and failing heart.
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