Abstract P302: Alpha-1A Adrenergic Receptor Activation Increases Electron Transport Chain Activity In The Uninjured Mouse Heart

Abstract

Decreased electron transport chain (ETC) activity in cardiac mitochondria is a hallmark of heart failure. Gain- and loss-of-function studies define the benefits of alpha-1A adrenergic receptor (α1A-AR) activation in the failing heart, such as increased cardiac contractility. However, the mechanisms behind these effects are unknown, and α1A-AR activation as a method of ETC regulation has not been studied. Here, we assessed the hypotheses that decreased α1A-AR activation reduces ETC enzyme activity, whereas increased α1A-AR activation enhances ETC enzyme activity. We profiled citrate synthase and ETC complex I-IV activities in isolated cardiac mitochondria from (1) wild-type (WT) CL57Bl/6J mice or global α1A-AR knockout mice (10-12 wks) and (2) WT mice (10-12 wks) treated with vehicle (0.9% saline) or the selective α1A-AR agonist A61603 (10 ng/kg/d, 3 d). Citrate synthase, a key enzyme in the citric acid cycle, fuels ETC activity and is a commonly used marker for mitochondrial mass. Global α1A-AR knockout increased citrate synthase activity in male mice compared to WT controls (5,292 ± 275 vs. 4,198 ± 339 nmol/min/mg, n = 5 each group, p = 0.04) (mean ± SEM) (Panel A). When normalized to citrate synthase activity, global α1A-AR knockout decreased complex I (37 ± 10% vs. 64 ± 5%, p = 0.02) (1,786 ± 421 vs. 2,766 ± 422 nmol/min/mg) and complex II (25 ± 9% vs. 50 ± 13%, p = 0.01) (1,332 ± 219 vs. 2,032 ± 213 nmol/min/mg) activities with a trend toward decreased complex IV activity (33 ± 13% vs. 49 ± 17%, p = 0.07) (1,707 ± 201 vs. 2,000 ± 238 nmol/min/mg) (Panel B). A61603 treatment led to a trend towards decreased citrate synthase activity in female mice compared to vehicle controls (6,662 ± 501 vs. 7,701 ± 421 nmol/min/mg, n = 3 each group, p = 0.09) (Panel C). When normalized to citrate synthase activity, A61603 increased complex I (27 ± 3% vs. 17 ± 2%, p = 0.03) (1,736 ± 92 vs. 1,326 ± 156 nmol/min/mg), complex III (61 ± 6% vs. 37 ± 5%, p = 0.02) (3,993 ± 258 vs. 2,894 ± 531 nmol/min/mg), and complex IV (70 ± 6% vs. 48 ± 6%, p = 0.03) (4,631 ± 100 vs. 3,676 ± 533 nmol/min/mg) activities (Panel D). In conclusion, we show that global α1A-AR knockout decreases ETC enzyme activity, while treatment with an α1A-AR agonist increases ETC enzyme activity. These findings may identify a novel mechanism through which α1A-AR activation protects the injured and failing heart.