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施加的张力和一氧化氮对大鼠肺阻力动脉内皮素反应的影响:慢性缺氧的作用

Influence of applied tension and nitric oxide on responses to endothelins in rat pulmonary resistance arteries: effect of chronic hypoxia.

作者信息

MacLean M R, McCulloch K M

机构信息

Division of Neuroscience and Biomedical Systems, Institute of Biological and Life Sciences, Glasgow University.

出版信息

Br J Pharmacol. 1998 Mar;123(5):991-9. doi: 10.1038/sj.bjp.0701682.

DOI:10.1038/sj.bjp.0701682
PMID:9535030
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1565238/
Abstract
  1. The effect of basal tension (transmural tensions 235 +/- 29 mg wt (low tension: equivalent to approximately 16 mmHg) and 305 +/- 34 mg wt (high tension: equivalent to 35 mmHg)) on rat pulmonary resistance artery responses to endothelin-1 (ET-1) and the selective ET(B)-receptor agonist sarafotoxin S6c (S6c) were studied. The effects of nitric oxide synthase inhibition with N(omega)-nitro-L-arginine methylester (L-NAME, 100 microM) on ET receptor-induced responses, as well as vasodilator responses to acetylcholine (ACh) and S6c, were also investigated. Changes with development of pulmonary hypertension, induced by two weeks of chronic hypoxia, were determined. 2. Control rat preparations showed greatest sensitivity for ET-1 when put under low tension (pEC50: 8.1 +/- 0.1) compared with at the higher tension (pEC50: 7.7 +/- 0.1) and there were significant increases in maximum contractile responses to S6c (approximately 80%) and noradrenaline (approximately 60%) when put under high tension. 3. In control pulmonary resistance arteries, both ET-1 and S6c produced potent vasoconstrictor responses. S6c was 12 fold more potent than ET-1 in vessels set at low tension (S6c pEC50: 9.2 +/- 0.1) and 200 fold more potent than ET-1 when the vessels were set at high tension (S6c pEC50: 9.0 +/- 0.1). Chronic hypoxia did not change the potencies of ET-1 and S6c but did significantly increase the maximum contractile response to ET-1 by 60% (at low tension) and 130% (at high tension). 4. In control rat vessels, L-NAME itself caused small increases in vascular tone (5-8 mg wt tension) in 33-56% of vessels. In the chronic hypoxic rats, in vessels set at high tension, L-NAME-induced tone was evident in 88% of vessels and had increased to 26.9 +/- 6.6 mg wt tension. Vasodilatation to sodium nitroprusside, in non-preconstricted vessels, was small in control rat vessels (2-6 mg wt tension) but increased significantly to 22.5 +/- 8.0 mg wt tension in chronic hypoxic vessels set at the higher tensions. Together, these results indicate an increase in endogenous tone in the vessels from the chronic hypoxic rats which is normally attenuated by nitric oxide production. 5. L-NAME increased the sensitivity to S6c 10 fold (low tension) and 6 fold (high tension) only in chronic hypoxic rat pulmonary resistance arteries. It had no effect on responses to ET-1 in any vessel studied. 6. Vasodilatation of pre-contracted vessels by ACh was markedly greater in the pulmonary resistance arteries from the chronic hypoxic rats (pIC50: 7.12 +/- 0.19, maximum: 72.1 +/- 0.2.0%) compared to their age-matched controls (pIC50: 5.77 +/- 0.15, maximum: 28.2 +/- 2.0%). There was also a 2.5 fold increase in maximum vasodilatation induced by ACh. 7. These results demonstrate that control rat preparations showed greatest sensitivity for ET-1 when set at the lower tension, equivalent to the pressure expected in vivo (approximately 16 mmHg). Pulmonary hypertension due to chronic hypoxia potentiated the maximum response to ET-1. Pulmonary resistance arteries from control animals exhibited little endogenous tone, but exposure to chronic hypoxia increased endogenous inherent tone which is normally attenuated by nitric oxide. Endogenous nitric oxide production may increase in pulmonary resistance arteries from chronic hypoxic rats and attenuate contractile responses to ET(B2) receptor stimulation. Relaxation to ACh was increased in pulmonary resistance arteries from chronic hypoxic rats.
摘要
  1. 研究了基础张力(跨壁张力分别为235±29mg重量(低张力:相当于约16mmHg)和305±34mg重量(高张力:相当于35mmHg))对大鼠肺阻力动脉对内皮素-1(ET-1)和选择性ET(B)受体激动剂沙拉新(S6c)反应的影响。还研究了用N(ω)-硝基-L-精氨酸甲酯(L-NAME,100μM)抑制一氧化氮合酶对ET受体诱导反应以及对乙酰胆碱(ACh)和S6c的血管舒张反应的影响。测定了由两周慢性缺氧诱导的肺动脉高压发展过程中的变化。2. 对照大鼠标本在低张力下(pEC50:8.1±0.1)对ET-1的敏感性最高,与高张力下(pEC50:7.7±0.1)相比,高张力下对S6c(约80%)和去甲肾上腺素(约60%)的最大收缩反应显著增加。3. 在对照肺阻力动脉中,ET-1和S6c均产生强烈的血管收缩反应。在低张力设置的血管中,S6c的效力比ET-1高12倍(S6c pEC50:9.2±0.1),在高张力设置的血管中,S6c的效力比ET-1高200倍(S6c pEC50:9.0±0.1)。慢性缺氧并未改变ET-1和S6c的效力,但显著增加了对ET-1的最大收缩反应,低张力下增加60%,高张力下增加130%。4. 在对照大鼠血管中,L-NAME本身在33%-56%的血管中引起血管张力小幅增加(5-8mg重量张力)。在慢性缺氧大鼠中,在高张力设置的血管中,88%的血管中可见L-NAME诱导的张力,且已增加至26.9±6.6mg重量张力。在未预收缩的血管中,对照大鼠血管对硝普钠的血管舒张作用较小(2-6mg重量张力),但在高张力设置的慢性缺氧血管中显著增加至22.5±8.0mg重量张力。这些结果共同表明,慢性缺氧大鼠血管中的内源性张力增加,而这种增加通常被一氧化氮的产生所减弱。5. L-NAME仅在慢性缺氧大鼠肺阻力动脉中使对S6c的敏感性增加10倍(低张力)和6倍(高张力)。在所研究的任何血管中,它对ET-1的反应均无影响。6. 与年龄匹配的对照相比,慢性缺氧大鼠肺阻力动脉中ACh对预收缩血管的舒张作用明显更大(pIC50:7.12±0.19,最大值:72.1±0.2.0%)(对照pIC50:5.77±0.15,最大值:28.2±2.0%)。ACh诱导的最大血管舒张也增加了2.5倍。7. 这些结果表明,对照大鼠标本在设置为较低张力(相当于体内预期压力(约16mmHg))时对ET-1的敏感性最高。慢性缺氧导致的肺动脉高压增强了对ET-1的最大反应。对照动物的肺阻力动脉几乎没有内源性张力,但暴露于慢性缺氧会增加内源性固有张力,而这种张力通常被一氧化氮所减弱。慢性缺氧大鼠肺阻力动脉中内源性一氧化氮的产生可能增加,并减弱对ET(B2)受体刺激的收缩反应。慢性缺氧大鼠肺阻力动脉对ACh的舒张作用增强。