慢性跑步机跑步通过上调下丘脑 GABA 能系统使正常血压大鼠的静息血压重置到较低水平。

Chronic treadmill running in normotensive rats resets the resting blood pressure to lower levels by upregulating the hypothalamic GABAergic system.

机构信息

Institute of Basic Medical Sciences, National Cheng Kung University, Tainan, Taiwan, ROC.

出版信息

J Hypertens. 2011 Dec;29(12):2339-48. doi: 10.1097/HJH.0b013e32834c628f.

DOI:10.1097/HJH.0b013e32834c628f

PMID:22002337

Abstract

OBJECTIVE

The cardiovascular integration center not only sends out signals to offset the stimulus-induced responses but also resets the resting blood pressure. We hypothesize that GABAergic adaptations in the hypothalamus participate in the chronic exercise-induced cardiovascular resetting effects in conscious normotensive animals.

METHODS

Male Wistar rats were subjected to chronic moderate exercise (CME, 8-week treadmill running at moderate intensity). A biotelemetry system was used to measure blood pressure, heart rate, autonomic nervous activities, baroreflex sensitivity and endogenous GABAergic activities in the paraventricular nucleus and the posterior hypothalamic area. Hypothalamic specimens were collected for quantifying GABA-related proteins and GABAergic neurons.

RESULTS

CME reduced resting blood pressure, heart rate, sympathetic activity and enhanced parasympathetic activity and baroreflex sensitivity. Additionally, CME elevated the resting level of hypothalamic GABAergic activities, increased the percentage of GABAergic neurons in the hypothalamus and upregulated the hypothalamic protein levels of neuronal nitric oxide synthase, GAD67 and gephyrin, but not GABAA receptor. Moreover, a single bout of moderate exercise transiently elevated blood pressure and heart rate with prolonged high levels of neural controls (sympathetic activity, baroreflex sensitivity and hypothalamic GABAergic activities). CME accelerated the postexercise recovery in cardiovascular parameters and neural control alterations.

CONCLUSION

Chronic treadmill running in normotensive rats augmented the GABAergic system in both paraventricular nucleus and posterior hypothalamic area, resulting in lower resting blood pressure, heart rate and sympathetic tone under conscious unrestraint conditions. This study provides insight into mechanisms important for explaining how chronic exercise resets the resting blood pressure.

摘要

目的

心血管整合中心不仅发出信号来抵消刺激引起的反应，还重置静息血压。我们假设下丘脑的 GABA 能适应参与了清醒正常血压动物慢性运动引起的心血管重置效应。

方法

雄性 Wistar 大鼠进行慢性中等强度运动（CME，8 周中等强度跑步机跑步）。使用生物遥测系统测量血压、心率、自主神经活动、压力反射敏感性和室旁核和下丘脑后区的内源性 GABA 能活动。收集下丘脑标本，用于定量测定 GABA 相关蛋白和 GABA 能神经元。

结果

CME 降低静息血压、心率、交感神经活动，增强副交感神经活动和压力反射敏感性。此外，CME 还增加了下丘脑的基础 GABA 能活动水平，增加了下丘脑 GABA 能神经元的比例，并上调了下丘脑神经元型一氧化氮合酶、GAD67 和 Gephyrin 的蛋白水平，但不包括 GABA A 受体。此外，单次中等强度运动可短暂升高血压和心率，同时延长神经控制（交感神经活动、压力反射敏感性和下丘脑 GABA 能活动）的高水平。CME 加速了运动后心血管参数和神经控制改变的恢复。

结论

正常血压大鼠在跑步机上进行慢性跑步训练增强了室旁核和下丘脑后区的 GABA 能系统，导致在清醒不受约束的条件下静息血压、心率和交感神经张力降低。本研究为解释慢性运动如何重置静息血压的机制提供了新的见解。

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慢性跑步机跑步通过上调下丘脑 GABA 能系统使正常血压大鼠的静息血压重置到较低水平。

Chronic treadmill running in normotensive rats resets the resting blood pressure to lower levels by upregulating the hypothalamic GABAergic system.

机构信息

出版信息

OBJECTIVE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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