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Author: Admin | 2025-04-28
The NO signal and the intracavernosal pressure (ICP) were increased by electrical stimulation of cavernosal nerves (ESCN). However, the rise in the NO levels long outlived the rapid return to baseline of the ICP values at the end of nerve stimulation. 4. The ICP and the NO responses to ESCN were suppressed by local and systemic injections of ¬_NAME. Subsequent treatment with ¬_arginine of ¬_NAME-treated animals restored the NO signal to basal levels and the NO response to ESCN. The ICP response to ESCN was restored only in part by ¬_arginine. 5. The observed temporal dissociation between the NO and ICP responses could be accounted for by several factors, including the buffering of NO by the blood filling the cavernosal spaces during erection. 6. These findings indicate that an increased production of NO in the corpora cavernosa is necessary but not sufficient for maintaining penile erection and suggest a complex modulation of the NO-cGMP-cavernosal smooth muscle relaxation cascade.Effects of intracavernous administration of adrenomedullin on erectile function in ratsPeptides, 2001We have reported that adrenomedullin (AM)-induced vasodilation is at least in part nitric oxide (NO)-cGMP-dependent in the rat. Although it is well known that NO is much involved in the erectile function, it is controversial as to whether AM influences the erectile function. Thus, we examined the effects of AM on intracavernous pressure (ICP) during penile erection. The left carotid artery of rats was cannulated to monitor of mean arterial pressure (MAP). Bipolar electrodes were positioned on the cavernous nerve. The right cavernous body was cannulated with a needle connected to a pressure transducer to monitor ICP. Electrical stimulation (ES) increased ICP in a voltage-dependent manner. Elevation of ICP continued during ES. The intracavernous injection of 0.5 nmol AM significantly potentiated ES-induced increases in both maximal developed ICP/MAP and area under the curve (ICP trace; AUC). Since AM slightly lowered MAP, ICP was normalized by MAP. i.v. administration of N -nitro-L-arginine, a NO synthase inhibitor, markedly decreased AM/ES-induced ICP elevation. However, in the presence of E-4021, a cGMP-specific phosphodiesterase inhibitor, AM further increased both ICP/MAP and AUC. These results suggest that a NO-cGMP pathway is involved in the regulation of AM-induced rat cavernous vasorelaxation.Effects of various nitric oxide-donating drugs on adrenergic tension of human seminal vesicles in vitroUrology, 2003Objectives. To evaluate the effects of the nitric oxide (NO)-donating compounds sodium nitroprusside (SNP), S-nitroso-glutathione (GSNO), S-nitroso-N-acetylcysteine (SNAC), S-nitroso-N-acetylcysteineethylester (SNACET), and linsidomine (SIN-1) on the adrenergic tension of isolated human seminal vesicle strip preparations. The significance of the NO-cyclic guanosine monophosphate (cGMP) pathway in the regulation of smooth muscle tone in the human genitourinary tract has been well established. However, information on the significance of NO-mediated signal transduction in the functional control of the
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