脑内血管紧张素通过小胶质细胞激活和NADPH衍生的活性氧增强多巴胺能细胞死亡。

Brain angiotensin enhances dopaminergic cell death via microglial activation and NADPH-derived ROS.

作者信息

Rodriguez-Pallares J, Rey P, Parga J A, Muñoz A, Guerra M J, Labandeira-Garcia J L

机构信息

Department of Morphological Sciences, Faculty of Medicine, Laboratory of Neuroanatomy and Experimental Neurology, University of Santiago de Compostela, 15782 Santiago de Compostela, Spain.

出版信息

Neurobiol Dis. 2008 Jul;31(1):58-73. doi: 10.1016/j.nbd.2008.03.003. Epub 2008 Apr 1.

DOI:10.1016/j.nbd.2008.03.003

PMID:18499466

Abstract

Angiotensin II (AII) plays a major role in the progression of inflammation and NADPH-derived oxidative stress (OS) in several tissues. The brain possesses a local angiotensin system, and OS and inflammation are key factors in the progression of Parkinson's disease. In rat mesencephalic cultures, AII increased 6-OHDA-induced dopaminergic (DA) cell death, generation of superoxide in DA neurons and microglial cells, the expression of NADPH-oxidase mRNA, and the number of reactive microglial cells. These effects were blocked by AII type-1 (AT1) antagonists, NADPH inhibitors, or elimination of glial cells. DA degeneration increased angiotensin converting enzyme activity and AII levels. In rats, 6-OHDA-induced dopaminergic cell loss and microglial activation were reduced by treatment with AT1 antagonists. The present data suggest that AII, via AT1 receptors, increases the dopaminergic degeneration process by amplifying the inflammatory response and intraneuronal levels of OS, and that glial cells play a major role in this process.

摘要

血管紧张素II（AII）在多种组织的炎症进展以及烟酰胺腺嘌呤二核苷酸磷酸（NADPH）衍生的氧化应激（OS）中起主要作用。大脑拥有局部血管紧张素系统，而OS和炎症是帕金森病进展的关键因素。在大鼠中脑培养物中，AII增加了6-羟基多巴胺（6-OHDA）诱导的多巴胺能（DA）细胞死亡、DA神经元和小胶质细胞中超氧化物的生成、NADPH氧化酶mRNA的表达以及反应性小胶质细胞的数量。这些作用被1型血管紧张素II（AT1）拮抗剂、NADPH抑制剂或消除胶质细胞所阻断。DA变性增加了血管紧张素转换酶活性和AII水平。在大鼠中，用AT1拮抗剂治疗可减少6-OHDA诱导的多巴胺能细胞丢失和小胶质细胞活化。目前的数据表明，AII通过AT1受体，通过放大炎症反应和神经元内OS水平来增加多巴胺能变性过程，并且胶质细胞在这一过程中起主要作用。

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脑内血管紧张素通过小胶质细胞激活和NADPH衍生的活性氧增强多巴胺能细胞死亡。

Brain angiotensin enhances dopaminergic cell death via microglial activation and NADPH-derived ROS.

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