α-Adrenergic receptor-mediated restraint of skeletal muscle blood flow during prolonged exercise

Abstract

Sympathetic nervous system restraint of skeletal muscle blood flow during dynamic exercise has been well documented. However, whether sympathetic restraint of muscle blood flow persists and is constant throughout prolonged exercise has not been established. We hypothesized that both alpha1- and alpha2-adrenergic receptors would restrain skeletal muscle blood flow throughout prolonged constant-load exercise and that the restraint would increase as a function of exercise duration. Mongrel dogs were instrumented chronically with transit-time flow probes on the external iliac arteries and an indwelling catheter in a branch of the femoral artery. Flow-adjusted doses of selective alpha1- (prazosin) and alpha2-adrenergic receptor (rauwolscine) antagonists were infused after 5, 30, and 50 min of treadmill exercise at 3 and 6 miles/h. During mild-intensity exercise (3 miles/h), prazosin infusion resulted in a greater (P < 0.05) increase in vascular conductance (VC) after 5 [42% (SD 6)], compared with 30 [28% (SD 6)] and 50 [28% (SD 8)] min of running. In contrast, prazosin resulted in a similar increase in VC after 5 [29% (SD 10)], 30 [24% (SD 9)], and 50 [22% (SD 9)] min of moderate-intensity (6 miles/h) exercise. Rauwolscine infusion resulted in a greater (P < 0.05) increase in VC after 5 [39% (SD 14)] compared with 30 [26% (SD 9)] and 50 [22% (SD 4)] min of exercise at 3 miles/h. Rauwolscine infusion produced a similar increase in VC after 5 [19% (SD 3)], 30 [15% (SD 6)], and 50 [16% (SD 2)] min of exercise at 6 miles/h. These results suggest that the ability of alpha1- and alpha2-adrenergic receptors to produce vasoconstriction and restrain blood flow to active muscles may be influenced by both the intensity and duration of exercise.