血管紧张素II:大脑中的多任务处理。

Juan M Saavedra, Julius Benicky, Jin Zhou
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引用次数: 39

摘要

除了控制全身血压外,血管紧张素II (Ang II)在大脑中有多种作用,包括调节脑血管流量和对压力的反应。为了阐明Ang II及其1型(AT1)受体的中心作用,我们回顾了近年来有关AT1受体阻滞剂坎地沙坦预处理对自发性高血压大鼠(SHRs)实验性缺血、脑血管重构和炎症的影响,以及隔离和冷约束诱导应激反应的文献报道。血管紧张素II通过刺激位于脑血管内皮和中枢通路的at1受体调节脑循环。SHRs表达更多的内皮at1受体和中枢交感神经过度驱动,导致病理性脑血管生长、炎症、脑血管顺应性降低和对脑缺血的易感性增强。持续的中枢at1受体拮抗剂可逆转这些作用。应激前持续减少at1受体刺激可阻止隔离期间的激素和交感肾上腺应激反应,并阻止胃溃疡对冷约束的应激反应,这表明at1受体刺激的增加对于增强应激期间发生的中枢交感反应以及促肾上腺皮质激素释放因子(CRF)和精氨酸抗利尿激素的形成和释放至关重要。at1受体阻断剂逆转了CRF1和苯二氮卓受体在孤立应激下的皮质改变,其作用可能与其在啮齿动物中的抗焦虑作用有关。通过at1受体拮抗剂持续降低Ang II张力可被认为是预防和治疗脑缺血和应激相关及情绪障碍的一种方法。进一步的临床前研究和对照临床试验是必要的,以确认这种新的治疗方法的有效性。
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Angiotensin II: multitasking in the brain.

In addition to controlling systemic blood pressure, angiotensin II (Ang II) has several roles in the brain, including the regulation of cerebrovascular flow and the reaction to stress. In order to clarify the central effects of Ang II and its type 1 (AT1) receptors, we reviewed the literature reporting recent research on the effects of pretreatment with the AT1-receptor blocker, candesartan, on experimental ischemia, cerebrovascular remodeling, and inflammation in spontaneously hypertensive rats (SHRs), and the responses to stress induced by isolation and by cold-restraint. Angiotensin II regulates the brain circulation through stimulation of AT1-receptors located in the cerebrovascular endothelium and central pathways. SHRs express greater numbers of endothelial AT1-receptors and a central sympathetic overdrive, resulting in pathological cerebrovascular growth, inflammation, decreased cerebrovascular compliance, and enhanced vulnerability to brain ischemia. Sustained central AT1-receptor antagonism reverses these effects. Sustained reduction of AT1-receptor stimulation before stress prevents the hormonal and sympathoadrenal stress responses during isolation and prevents the gastric ulceration stress response to cold-restraint, indicating that increased AT1-receptor stimulation is essential to enhance the central sympathetic response and the formation and release of corticotropin-releasing factor (CRF) and arginine vasopressin that occur during stress. AT1-receptor blocking agents reverse the cortical alterations in CRF1 and benzodiazepine receptors characteristic of isolation stress, effects probably related to their anti-anxiety effect in rodents. Sustained reduction of Ang II tone by AT1-receptor antagonism could be considered as a preventive and therapeutic approach for brain ischemia and stress-related and mood disorders. Additional preclinical studies and controlled clinical trials are necessary to confirm the efficacy of this novel therapeutic approach.

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