L-arginine availability determines the duration of acetylcholine-induced systemic vasodilation in vivo.

In vitro studies have shown that acetylcholine-induced vasorelaxation is mediated by endothelium-derived relaxing factor/nitric oxide (EDRF/NO). EDRF/NO is synthesized from L-arginine by an enzymatic pathway that is inhibited by L-NG-methylarginine. To assess whether EDRF/NO also mediates the vasodilating action of acetylcholine in vivo, we have investigated the effect of L-arginine and L-NG-methylarginine on the hypotensive response to acetylcholine in the anesthetized guinea pig. L-arginine prolonged the duration of the depressor response to acetylcholine and L-NG-methylarginine decreased it. However, neither L-arginine nor L-NG-methylarginine modified the magnitude of acetylcholine's hypotensive effect unless the blood pressure was previously elevated by infusion with norepinephrine. Thus, de novo synthesis of nitric oxide from L-arginine contributes importantly, but not exclusively, to acetylcholine's hypotensive effect in the guinea pig. Furthermore, the concentration of circulating L-arginine may influence the duration and magnitude of acetylcholine-induced depressor responses under normotensive and hypertensive conditions.