氯沙坦对一氧化氮缺乏高血压大鼠血压、氧化应激和硝酸盐/亚硝酸盐水平的影响

Mahmoud Khattab, Mobasher Ahmad, Othman A Al-Shabanah, Muhammad Raza
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引用次数: 16

摘要

氯沙坦是一种血管紧张素II型1受体(AT1)拮抗剂,用于研究氯沙坦是否对诺美加-硝基- l -精氨酸甲酯(L-NAME)慢性抑制一氧化氮(NO)引起的持续高血压、心脏肥厚和肾脏损害有保护作用。我们研究了一氧化氮代谢和氧化应激在l - name诱导的高血压中的作用,以及AT1受体拮抗剂如何相互作用。用L-NAME (60 mg/kg/d)抑制雄性Wistar白化大鼠NO合成,并观察氯沙坦(10 mg/kg/d)对6周饮水的影响。六周后,测量动物的收缩压、平均血压和舒张压(分别为BPs、BPm和BPd)。轻乙醚麻醉下取血检测ACE活性、NOx和肌酐。称重心脏和肾脏,并计算脏器指数与体重的比值。这些组织被立即保存,用于GSH, MDA, NOx的估计。慢性L-NAME治疗分别使BPs、BPm和BPd高于正常水平。治疗还增加了血浆中的NOx,显著降低了心脏中的NOx,并有增加肾脏中的NOx的趋势。L-NAME引起心脏和肾脏组织中谷胱甘肽的耗竭,同时两组织中MDA含量增加。l - name治疗的动物血浆肌酐增加了一倍。血浆ACE活性在对照组下无明显下降。与氯沙坦同时治疗几乎完全抑制血压升高。氯沙坦补充部分衰竭的心脏和肾脏抗氧化剂GSH,改善氧化应激损伤指数MDA的升高。然而,单独使用氯沙坦并没有明显改变血浆水平或心脏和肾脏的NO含量。氯沙坦加L-NAME治疗使血浆ACE活性高于对照。此外,氯沙坦改善了L-NAME诱导的肌酐升高,使其恢复到与对照组无显著差异的值。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Effects of losartan on blood pressure, oxidative stress, and nitrate/nitrite levels in the nitric oxide deficient hypertensive rats.

Losartan, an angiotensin II type-1 receptor (AT1) antagonist, was used to investigate whether it can offer protection against the sustained hypertension, cardiac hypertrophy, and renal damage induced by chronic inhibition of nitric oxide (NO) by Nomega-nitro-L-arginine methyl ester (L-NAME). We studied the involvement of both NO metabolism and oxidative stress in L-NAME-induced hypertension, and how AT1 receptor antagonism may interact. Male Wistar albino rats were subjected to NO synthesis inhibition by the use of L-NAME (60 mg/kg/day), and the effects of losartan (10 mg/kg/day) in drinking water for six weeks were observed. After six weeks, animals were subjected to the measurements for systolic, mean, and diastolic blood pressure (BPs, BPm, and BPd, respectively). Under light ether anesthesia blood was withdrawn for ACE activity, NOx and creatinine determinations. Heart and kidneys were weighed, and organ indices were calculated comparing to their body weights. These tissues were immediately preserved for GSH, MDA, NOx estimations. Chronic L-NAME treatment raised BPs, BPm, and BPd, respectively, above the normal. Treatment also increased NOx in plasma, significantly decreased it in the heart, and tended to increase it in kidney. L-NAME caused GSH depletion in the heart and kidney tissues with a concomitant increase in MDA contents in both the tissues. Plasma creatinine doubled in L-NAME-treated animals. Plasma ACE activity showed a nonsignificant decrease below control. Concurrent treatment with losartan almost completely inhibited any rise in blood pressure. Losartan replenished the partly depleted cardiac and renal antioxidant GSH and ameliorated the increase of oxidative stress damage index, MDA. However, losartan alone did not change appreciably the plasma level or cardiac and renal contents of NO,. Losartan plus L-NAME treatment caused an increase in plasma ACE activity above control. Furthermore, losartan ameliorated the L-NAME induced increase in creatinine back to value nonsignificantly different from control.

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