Ehrén I, Iversen H, Jansson O, Adolfsson J, Wiklund N P
Department of Urology, Karolinska Hospital, Stockholm, Sweden.
Urology. 1994 Nov;44(5):683-7. doi: 10.1016/s0090-4295(94)80206-8.
The present study was designed to correlate the localization of nitric oxide synthase (NOS) activity to nerve-induced smooth muscle responses in the human lower urinary tract.
Nerve-induced smooth muscle activity was studied in the human lower urogenital tract. NOS activity was studied by measurement of citrulline formation and guanylate cyclase activity.
Nerve-induced contractions in the human detrusor muscle, bladder neck, and prostatic urethra were not significantly enhanced by the NOS inhibitor N omega-nitro-L-arginine methyl ester (L-NAME). In the prostatic urethra, relaxations to transmural nerve stimulation were obtained after increase in tension. The relaxations were abolished by L-NAME and restored by L-arginine. Nerve-induced relaxations were occasionally obtained in the bladder neck, whereas nerve-induced relaxations were never obtained in the detrusor muscle. Citrulline formation was highest in the prostatic urethra, it was intermediate in the bladder neck, and it was less pronounced in the detrusor muscle. Guanylate cyclase activity was also highest in the prostatic urethra, whereas there was no significant difference in guanylate cyclase activity in the bladder neck and detrusor muscle.
The nerve-induced smooth muscle responses and the localization of NOS activity were in good agreement. Thus, in areas where marked relaxations to nerve stimulation were obtained, there was also a high NOS activity. The data suggest that nitric oxide is a mediator for the neurogenic dilation of the bladder neck and urethra during the micturition reflex.
本研究旨在关联一氧化氮合酶(NOS)活性的定位与人类下尿路神经诱导的平滑肌反应。
在人类下泌尿生殖道研究神经诱导的平滑肌活动。通过测量瓜氨酸生成和鸟苷酸环化酶活性来研究NOS活性。
NOS抑制剂Nω-硝基-L-精氨酸甲酯(L-NAME)未显著增强人类逼尿肌、膀胱颈和前列腺尿道的神经诱导收缩。在前列腺尿道,张力增加后可获得对跨壁神经刺激的舒张反应。这些舒张反应被L-NAME消除,并被L-精氨酸恢复。膀胱颈偶尔可获得神经诱导的舒张反应,而逼尿肌从未获得神经诱导的舒张反应。瓜氨酸生成在前列腺尿道最高,在膀胱颈居中,在逼尿肌中则不明显。鸟苷酸环化酶活性在前列腺尿道也最高,而膀胱颈和逼尿肌中的鸟苷酸环化酶活性无显著差异。
神经诱导的平滑肌反应与NOS活性的定位高度一致。因此,在获得对神经刺激明显舒张反应的区域,也存在较高的NOS活性。数据表明一氧化氮是排尿反射期间膀胱颈和尿道神经源性扩张的介质。
