亚硝酸盐对离体肺内皮功能的影响

I.C Ehrhart, L Zou, M.J Theodorakis, J.B Parkerson, X Gu, R.B Caldwell, J.D Catravas
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引用次数: 5

摘要

与蛋白质功能障碍有关的硝化酪氨酸在各种组织中增加,与各种病理过程有关。血管紧张素转换酶(ACE)是一种管腔血管内皮酶,其功能障碍是内皮损伤的早期征兆。ACE含有对其酶活性至关重要的酪氨酸。其他研究表明,亚硝酸盐加剧了与活化的多形核中性粒细胞(PMN)接触的培养内皮细胞的ACE功能障碍。我们假设外源性亚硝酸盐会增强与离体肺PMN激活相关的内皮ACE功能障碍。大鼠在离体肺灌注前2小时用含Ficoll缓冲液注射脂多糖(LPS)。用甲酰基met - leu - phe (fMLP, 10−7 M)或肉豆酸酯佛波酯(PMA, 10−7 M)激活300- M亚硝酸盐处理或未处理的肺部PMN。采用一过指标稀释法和一级反应动力学测定ACE活性,肺Ficoll含量作为血管通透性指标。fMLP和PMA均可降低血管内皮ACE活性,增加肺动脉压、水肿和血管通透性。外源性硝酸盐没有增强肺匀浆细胞ACE活性、肺损伤或硝基酪氨酸免疫反应性的降低。与在培养的内皮细胞中的观察结果相反,我们在整个肺中的发现与其他人的猜测一致,即大鼠肺中存在一种未知因子,可以最大限度地减少硝化蛋白的积累。
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Effect of nitrite on endothelial function in isolated lung

Nitrated tyrosine, implicated in protein dysfunction, is increased in various tissues in association with diverse pathological processes. Angiotensin converting enzyme (ACE) is a luminal vascular endothelial enzyme whose dysfunction is an early sign of endothelial injury. ACE contains a tyrosine critical for its enzymatic activity. Others have shown that nitrite exacerbates the ACE dysfunction of cultured endothelial cells in contact with activated polymorphonuclear neutrophils (PMN). We hypothesized that exogenous nitrite would enhance endothelial ACE dysfunction associated with PMN activation in the isolated lung. Rats received lipopolysaccharide (LPS) 2 h prior to isolated lung perfusion with Ficoll containing buffer. Either formyl-Met-Leu-Phe (fMLP, 10−7 M) or phorbol myristate acetate (PMA, 10−7 M) was used to activate PMN in lungs treated or not treated with 300-μM nitrite. A first pass indicator dilution method and first order reaction kinetics were used to determine ACE activity, while lung Ficoll content served as an index of vascular permeability. Both fMLP and PMA decreased endothelial ACE activity and increased pulmonary artery pressure, edema and vascular permeability. Exogenous nitrate did not potentiate the decrease in ACE activity, the lung injury or nitrotyrosine immunoreactivity of lung homogenates. In contrast to observations in cultured endothelial cells, our findings in the whole lung are compatible with the speculation of others that the rat lung has an unidentified factor, which minimizes accumulation of nitrated proteins.

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