Erection and NO override the vasoconstrictive effect of α-adrenergic stimulation in the rat penile vasculature

Studies in this laboratory are designed to determine the effects of vasoconstrictor agents on the erectile response in rats. We have previously demonstrated that the vasoconstrictor effect of endothelin-1 (ET-1) is sharply reduced by erection and by nitric oxide (NO) administration. The present study was performed to determine if vasoconstriction, resulting from alpha -adrenergic stimulation, is altered by erection and NO. During continuous monitoring of corpus cavernosum pressure (CCP) and mean arterial pressure (MAP), erection was induced by electrical stimulation of the autonomic ganglion for the innervation of the penis. When the alpha -adrenergic agonist methoxamine (METH, 10 mug/kg) was injected before erection (ie, into the non-erect penis), the subsequent erectile response (CCP/MAP) was significantly reduced from 0.68 +/-0.03 before METH to 0.34 +/-0.08 after METH. Injection of ME into the erect penis (ie, during erection) reduced the vasoconstrictor action of METH; CCP/MP was 0.74 +/-0.02 before METH and 0.55 +/-0.05 after METH (P<0.05). The vasoconstrictor action of METH was slightly reduced when given in conjunction with NOR-1, a NO donor drug; CCP/MAP was 0.70<plus/minus>0.05 before METH, 0.55 +/-0.09 after METH but this change was not significant. These results demonstrate that the response to alpha -adrenergic stimulation is attenuated during erection in response to ganglionic stimulation. Furthermore, it appears that NO, produced during erection, may serve to override agonist-induced vasoconstriction. These results support our hypothesis that NO acts to directly stimulate relaxation of cavernous smooth muscle and to inhibit the vasoconstrictor actions of agents like ET-1 and alpha -adrenergic agonists including norepinephrine.