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首页> 美国卫生研究院文献>other >Chronic Stress Produces Persistent Increases in Plasma Corticosterone Reductions in Brain and Cardiac Nitric Oxide Production and Delayed Alterations in Endothelial Function in Young Prehypertensive Rats
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Chronic Stress Produces Persistent Increases in Plasma Corticosterone Reductions in Brain and Cardiac Nitric Oxide Production and Delayed Alterations in Endothelial Function in Young Prehypertensive Rats

机译:慢性应激会导致年轻的高血压大鼠血浆皮质类固醇的持续增加大脑和心脏一氧化氮的产生减少以及内皮功能的延迟改变

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This study was designed to investigate whether oxidative stress, nitric oxide (NO) deficiency and/or endothelial dysfunction (ED) are present in young borderline hypertensive rats (BHR) and whether these pathologies can be causally involved in the initiation of blood pressure (BP) increases. Additionally, we tested the hypothesis that crowding stress, experienced during the peripubertal period, may produce persistent or delayed disorders in corticosterone release, NO synthesis, oxidative status and/or endothelial function that could accelerate BP increases. To test these hypotheses, 5-week-old male BHR and normotensive Wistar-Kyoto rats (WKY) were either kept in control conditions (for 2 and 4 weeks, respectively) or exposed to social stress produced by crowding for 2 weeks (stress). After cessation of crowding, a group of rats of each phenotype was kept in control conditions for the next 2 weeks (post-stress). Systolic BP of 5-week-old BHR was significantly increased vs. age-matched WKY (127 ± 3 vs. 104 ± 3 mmHg, p < 0.01) and remained significantly higher throughout the course of the experiment. Despite elevated BP, no signs of oxidative damage to plasma lipids, NO deficiency or ED were observed in control BHR vs. age-matched WKY. Crowding stress elevated plasma corticosterone and accelerated BP increases only in BHR; these effects persisted 2 weeks post-stress. Crowding failed to induce oxidative damage to plasma lipids in either phenotype, but it produced persistent decreases in NO production in the hypothalamus and brainstem of both strains of rats, as well as in the hearts of BHR. In contrast, crowding failed to reduce NO production in the aortae or acetylcholine-induced relaxations of the femoral arteries in both strains investigated. However, significantly reduced aortic NO production was observed in BHR 2 weeks post-stress vs. age-matched controls, which was in agreement with reduced NO-dependent components of vasorelaxation. In conclusion, this study’s data showed that oxidative stress, NO deficiency and ED are not causally involved in initiation of blood pressure increase in BHR. However, exposure to stressful environments produced persistent increases in plasma corticosterone and reductions of brain and cardiac NO production followed by a delayed decrease in the NO-dependent component of endothelium-dependent relaxation—changes that collectively accelerated BP increases only in BHR.
机译:这项研究旨在调查在年轻的交界性高血压大鼠(BHR)中是否存在氧化应激,一氧化氮(NO)缺乏和/或内皮功能障碍(ED),以及这些病理是否可能与血压的起因有关(BP) )增加。此外,我们测试了以下假设:青春期周围的拥挤压力可能会导致皮质酮释放,NO合成,氧化状态和/或内皮功能的持续或延迟紊乱,从而加速BP升高。为了检验这些假设,将5周大的雄性BHR和血压正常的Wistar-Kyoto大鼠(WKY)置于对照条件下(分别为2周和4周),或暴露于因拥挤而产生的社会压力2周(压力)。 。停止拥挤后,每种表型的一组大鼠在接下来的2周内(应激后)保持在对照条件下。与年龄匹配的WKY相比,5周龄BHR的收缩压明显升高(127±3 vs. 104±3 mmHg,p <0.01),并且在整个实验过程中仍显着升高。尽管BP升高,但与年龄匹配的WKY相比,对照组BHR中未观察到血浆脂质氧化损伤,NO缺乏或ED的迹象。拥挤的压力升高血浆皮质类固醇和加速的BP仅在BHR中升高。这些影响在压力后持续2周。拥挤未能诱导任何表型对血浆脂质的氧化损伤,但在两种大鼠的下丘脑和脑干以及BHR心脏中,NO的产生均持续减少。相比之下,在两种研究菌株中,拥挤均不能降低主动脉或乙酰胆碱引起的股动脉松弛中NO的产生。然而,与年龄匹配的对照组相比,在应激后2周,BHR观察到主动脉NO的产生显着减少,这与减少血管舒张的NO依赖性成分相一致。总之,这项研究的数据表明,氧化应激,NO缺乏和ED与BHR血压升高的起因没有因果关系。但是,暴露于压力环境会导致血浆皮质类固醇持续增加,脑和心脏NO生成量减少,然后内皮依赖性舒张功能的NO依赖性成分延迟下降,这种变化共同加速了BP仅在BHR中升高。

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