一氧化氮调节基础状态下家兔食管黏膜血流,但不调节辣椒素、降钙素基因相关肽或胆盐刺激引起的血流。
Nitric oxide regulates basal but not capsaicin-, CGRP-, or bile salt-stimulated rabbit esophageal mucosal blood flow.
作者信息
McKie L D, Bass B L, Dunkin B J, Harmon J W
机构信息
Department of Surgery, VA Medical Center, Washington, District of Columbia 20422, USA.
出版信息
Ann Surg. 1995 Aug;222(2):186-92. doi: 10.1097/00000658-199508000-00011.
BACKGROUND/AIMS: Esophageal mucosal blood flow is a dynamic phenomenon that is altered by luminal content that probably represents an important intrinsic method of defense. This study investigated the role played by endogenous nitric oxide in the regulation of esophageal mucosal blood flow at rest and in response to luminal capsaicin, a specific stimulant for visceral afferent nerves, as well as calcitonin gene-related peptide, and the bile salt deoxycholate.
METHODS
The L-arginine analog L-NAME was used to block nitric oxide synthesis. Radiolabeled microspheres were used to measure blood flow in a well-characterized rabbit model. Phenylephrine was used to mimic the hemodynamic effects of L-NAME to show the specificity of positive findings.
RESULTS
Administration of L-NAME led to a significant reduction in mucosal blood flow at rest, an effect that was not shared by phenylephrine. The blood flow responses to luminal capsaicin, intra-arterial calcitonin gene-related peptide (CGRP), and luminal deoxycholate, however, were not diminished in the presence of L-NAME.
CONCLUSIONS
Although nitric oxide may play a role in the maintenance of normal resting esophageal mucosal blood flow, the reactive responses to luminal capsaicin, luminal deoxycholate, and intra-arterial CGRP are not nitric oxide dependent.
背景/目的:食管黏膜血流是一种动态现象,会因管腔内物质而改变,这可能是一种重要的内在防御机制。本研究调查了内源性一氧化氮在静息状态下以及对管腔内辣椒素(一种内脏传入神经的特异性刺激物)、降钙素基因相关肽和胆盐脱氧胆酸的反应中对食管黏膜血流调节所起的作用。
方法
使用L - 精氨酸类似物L - NAME来阻断一氧化氮的合成。在一个特征明确的兔模型中,使用放射性微球来测量血流。使用去氧肾上腺素来模拟L - NAME的血流动力学效应,以显示阳性结果的特异性。
结果
给予L - NAME导致静息状态下黏膜血流显著减少,而去氧肾上腺素没有这种作用。然而,在存在L - NAME的情况下,对管腔内辣椒素、动脉内降钙素基因相关肽(CGRP)和管腔内脱氧胆酸的血流反应并未减弱。
结论
虽然一氧化氮可能在维持正常静息食管黏膜血流中起作用,但对管腔内辣椒素、管腔内脱氧胆酸和动脉内CGRP的反应性反应并不依赖于一氧化氮。
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