NS1619诱导的血管舒张在慢性低氧肺中增强且存在差异介导。

NS1619-induced vasodilation is enhanced and differentially mediated in chronically hypoxic lungs.

作者信息

McCullough Danielle J, Vang Alexander, Choudhary Gaurav

机构信息

Vascular Research Laboratory, Providence VA Medical Center, 830 Chalkstone Avenue, Providence, RI, 02908, USA.

出版信息

Lung. 2014 Oct;192(5):811-7. doi: 10.1007/s00408-014-9633-2. Epub 2014 Aug 8.

DOI:10.1007/s00408-014-9633-2

PMID:25104232

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6348099/

Abstract

PURPOSE

To identify the effect of the benzimidazalone derivative, NS1619, on modulating pulmonary vascular tone in lungs from rats exposed to normoxia (21% FiO2) or chronic hypoxia (10% FiO2) for three weeks.

METHODS

Isolated perfused lungs were preconstricted (U46619), and dose-dependent vasodilation to NS1619 was assessed. To elucidate the mechanisms responsible, NS1619 vasodilatory responses were assessed following inhibition of large-conductance Ca(2+)-activated (BKCa; iberiotoxin and paxilline), L-type Ca2+ (nifedipine), K+ (tetraethylammonium), Cl- (niflumic acid), and cation/TRP (lanthanum) channels, as well as nitric oxide synthase (L-NAME).

RESULTS

Compared to normoxia, NS1619-induced vasodilation was significantly greater following hypoxia; however, NO-dependent vasodilation and BKCa-mediated vasodilation, in response to NS1619, were similar in the normoxic and hypoxic lungs. In contrast, direct activation of L-type Ca2+ and non-BKCa K+ channel was involved in the NS1619-induced vasodilation only in hypoxic lungs.

CONCLUSIONS

NS1619 causes pulmonary vasodilation by affecting multiple complementary pathways, including stimulation of NO production, activation of BKCa channels, other TEA-sensitive K+ channels, and L-type Ca2+ channels, and could be considered as a therapeutic agent in hypoxic PH.

摘要

目的

确定苯并咪唑酮衍生物NS1619对暴露于常氧（21% 吸入氧分数）或慢性低氧（10% 吸入氧分数）三周的大鼠肺血管张力调节的影响。

方法

对离体灌注肺进行预收缩（U46619），并评估对NS1619的剂量依赖性血管舒张作用。为阐明其作用机制，在抑制大电导钙激活（BKCa；iberiotoxin和paxilline）、L型钙（硝苯地平）、钾（四乙铵）、氯（氟尼酸）和阳离子/瞬时受体电位（镧）通道以及一氧化氮合酶（L-NAME）后，评估NS1619的血管舒张反应。

结果

与常氧相比，低氧后NS1619诱导的血管舒张作用明显增强；然而，对NS1619的反应，常氧和低氧肺中依赖一氧化氮的血管舒张和BKCa介导的血管舒张相似。相反，仅在低氧肺中，L型钙通道和非BKCa钾通道的直接激活参与了NS1619诱导的血管舒张。

结论

NS1619通过影响多种互补途径引起肺血管舒张，包括刺激一氧化氮生成、激活BKCa通道、其他对四乙铵敏感的钾通道和L型钙通道，可被视为低氧性肺动脉高压的治疗药物。

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