The role of the brain renin-angiotensin system in Parkinson´s disease

IF 10.8 1区 医学 Q1 NEUROSCIENCES Translational Neurodegeneration Pub Date : 2024-04-15 DOI:10.1186/s40035-024-00410-3
Jose Luis Labandeira-Garcia, Carmen M. Labandeira, Maria J. Guerra, Ana I. Rodriguez-Perez
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Abstract

The renin-angiotensin system (RAS) was classically considered a circulating hormonal system that regulates blood pressure. However, different tissues and organs, including the brain, have a local paracrine RAS. Mutual regulation between the dopaminergic system and RAS has been observed in several tissues. Dysregulation of these interactions leads to renal and cardiovascular diseases, as well as progression of dopaminergic neuron degeneration in a major brain center of dopamine/angiotensin interaction such as the nigrostriatal system. A decrease in the dopaminergic function induces upregulation of the angiotensin type-1 (AT1) receptor activity, leading to recovery of dopamine levels. However, AT1 receptor overactivity in dopaminergic neurons and microglial cells upregulates the cellular NADPH-oxidase-superoxide axis and Ca2+ release, which mediate several key events in oxidative stress, neuroinflammation, and α-synuclein aggregation, involved in Parkinson's disease (PD) pathogenesis. An intraneuronal antioxidative/anti-inflammatory RAS counteracts the effects of the pro-oxidative AT1 receptor overactivity. Consistent with this, an imbalance in RAS activity towards the pro-oxidative/pro-inflammatory AT1 receptor axis has been observed in the substantia nigra and striatum of several animal models of high vulnerability to dopaminergic degeneration. Interestingly, autoantibodies against angiotensin-converting enzyme 2 and AT1 receptors are increased in PD models and PD patients and contribute to blood–brain barrier (BBB) dysregulation and nigrostriatal pro-inflammatory RAS upregulation. Therapeutic strategies addressed to the modulation of brain RAS, by AT1 receptor blockers (ARBs) and/or activation of the antioxidative axis (AT2, Mas receptors), may be neuroprotective for individuals with a high risk of developing PD or in prodromal stages of PD to reduce progression of the disease.
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脑肾素-血管紧张素系统在帕金森病中的作用
肾素-血管紧张素系统(RAS)通常被认为是调节血压的循环激素系统。然而,包括大脑在内的不同组织和器官都有局部的旁分泌 RAS。在一些组织中已经观察到多巴胺能系统和 RAS 之间的相互调节。这些相互作用的失调会导致肾脏和心血管疾病,以及多巴胺/血管紧张素相互作用的主要大脑中枢(如黑质系统)的多巴胺能神经元退化。多巴胺能功能的下降会诱导血管紧张素 1 型(AT1)受体活性的上调,从而导致多巴胺水平的恢复。然而,AT1 受体在多巴胺能神经元和小胶质细胞中的过度活跃会上调细胞的 NADPH 氧化酶-超氧化物轴和 Ca2+ 释放,从而介导氧化应激、神经炎症和α-突触核蛋白聚集等帕金森病(PD)发病机制中的几个关键事件。神经元内抗氧化/抗炎 RAS 可抵消促氧化 AT1 受体过度活跃的影响。与此相一致的是,在几种极易发生多巴胺能变性的动物模型的黑质和纹状体中,观察到了RAS活动向促氧化/促炎症AT1受体轴的不平衡。有趣的是,在帕金森病模型和帕金森病患者中,针对血管紧张素转换酶 2 和 AT1 受体的自身抗体增加,导致血脑屏障(BBB)失调和黑质促炎 RAS 上调。通过AT1受体阻断剂(ARBs)和/或激活抗氧化轴(AT2、Mas受体)来调节大脑RAS的治疗策略,可能会对罹患帕金森病的高危人群或处于帕金森病前驱期的人群起到神经保护作用,从而减少疾病的进展。
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来源期刊
Translational Neurodegeneration
Translational Neurodegeneration Neuroscience-Cognitive Neuroscience
CiteScore
19.50
自引率
0.80%
发文量
44
审稿时长
10 weeks
期刊介绍: Translational Neurodegeneration, an open-access, peer-reviewed journal, addresses all aspects of neurodegenerative diseases. It serves as a prominent platform for research, therapeutics, and education, fostering discussions and insights across basic, translational, and clinical research domains. Covering Parkinson's disease, Alzheimer's disease, and other neurodegenerative conditions, it welcomes contributions on epidemiology, pathogenesis, diagnosis, prevention, drug development, rehabilitation, and drug delivery. Scientists, clinicians, and physician-scientists are encouraged to share their work in this specialized journal tailored to their fields.
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