Nitric Oxide Synthase is Necessary for Normal Urogenital Development.

Andrology : open access Pub Date : 2013-11-04 DOI:10.4172/2167-0250.1000108

Christopher Bond, Omer Onur Cakir, Kevin T McVary, Carol A Podlasek

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引用次数: 2

Abstract

Introduction: Neuronal nitric oxide synthase (NOS-I) is significantly decreased with Cavernous Nerve (CN) injury in Erectile Dysfunction (ED) models. Increased apoptosis and collagen deposition accompany decreased NOS/CN injury, however these changes are typically attributed to the altered signaling of other factors, and a contribution of NOS in maintenance of urogenital structures has not previously been examined. Morphological changes in the corpora cavernosa occur at the same time as decreased NOS, suggesting a potential connection between decreased/inhibited NOS and morphological changes associated with ED. In this study we propose that NOS impacts urogenital morphology during development and will examine this hypothesis by NOS inhibition with L-NAME.

Methods: Primary outcomes were H&E, western and TUNEL to determine if penis, prostate and bladder morphology were altered with L-NAME treatment of Postnatal day 4 (P4) Sprague Dawley rats for 8 days. Tissue weight and immunohistochemical analysis for NOS were performed. Secondary evaluation of NOS-I regulation by Sonic Hedgehog (SHH) was examined by SHH inhibition in the pelvic ganglia (PG) and NOS-I protein was quantified by western in the PG/CN and penis. Nos abundance was quantified by RT-PCR during urogenital development and after CN injury.

Results: Apoptosis increased and penis, prostate and bladder morphology were altered with L-NAME. NOS inhibition decreased bladder weight 25%. SHH inhibition decreased NOS-I 35% in the PG/CN and 47% in the penis. Nos-III expression spiked within the first two weeks after birth in the penis but remained abundant in the adult. In the prostate, Nos-III was abundant immediately after birth and declined steadily with age. Nos-I expression in the PG/CN decreased sharply with CN injury and returned to baseline by 7 days.

Conclusions: NOS is required for normal urogenital development. Since NOS is decreased with ED, it may contribute to the abnormal morphology observed in ED patients and animal models.

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一氧化氮合酶是正常泌尿生殖发育所必需的。

在勃起功能障碍(ED)模型中，海绵状神经(CN)损伤导致神经元一氧化氮合酶(NOS-I)显著降低。细胞凋亡和胶原沉积的增加伴随着NOS/CN损伤的减少，然而这些变化通常归因于其他因素的信号改变，NOS在维持泌尿生殖结构中的作用以前没有被研究过。海绵体的形态变化与NOS减少同时发生，这表明NOS减少/抑制与ED相关的形态学变化之间存在潜在联系。在本研究中，我们提出NOS影响发育过程中的泌尿生殖器形态，并将通过L-NAME抑制NOS来验证这一假设。方法:采用H&E、western和TUNEL观察出生后第4天(P4)大鼠L-NAME治疗8 d后阴茎、前列腺和膀胱形态是否发生改变。对NOS进行组织重量和免疫组化分析。通过盆腔神经节(PG)的SHH抑制检测Sonic Hedgehog (SHH)对NOS-I调控的二次评价，western检测PG/CN和阴茎中NOS-I蛋白的含量。采用RT-PCR方法定量分析泌尿生殖发育过程和CN损伤后no的丰度。结果:L-NAME组细胞凋亡增加，阴茎、前列腺和膀胱形态发生改变。NOS抑制使膀胱重量减少25%。SHH抑制使NOS-I在PG/CN中降低35%，在阴茎中降低47%。no - iii的表达在出生后的前两周内急剧增加，但在成人中仍然丰富。在前列腺中，Nos-III在出生后立即丰富，并随着年龄的增长而稳步下降。no - i在PG/CN中的表达随着CN损伤而急剧下降，并在7天后恢复到基线水平。结论:NOS是泌尿生殖系统正常发育所必需的。由于NOS随着ED的发生而减少，可能导致ED患者和动物模型的形态学异常。

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Andrology : open access

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