Modulation of Mitochondrial Dynamics by the Angiotensin System in Dopaminergic Neurons and Microglia.

IF 7 2区 医学 Q1 GERIATRICS & GERONTOLOGY Aging and Disease Pub Date : 2024-10-31 DOI:10.14336/AD.2024.0981
Aloia Quijano, Ana I Rodriguez-Perez, María Alicia Costa-Besada, Andrea Lopez-Lopez, María J Guerra, Jose Luis Labandeira-Garcia, Rita Valenzuela
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Abstract

Renin-angiotensin system (RAS) dysfunctions have been associated to life-spam, and aging-related diseases, including neurodegenerative diseases, such as Parkinson's disease, and the neuroinflammatory associated processes. Mitochondrial dysfunctions play a major role in aging-related diseases, including dopaminergic neurodegeneration and neuroinflammation. However, the mechanisms of RAS/mitochondria interactions remain to be clarified. In the present work, we studied the role of major RAS components in the mitochondrial dynamics in dopaminergic neurons and microglia using in vitro and in vivo models. In dopaminergic neurons, we observed that activation of the RAS pro-oxidative/pro-inflammatory axis (Angiotensin II/Angiotensin type-1 receptor, AT1/NADPH oxidase complex) produces a dysregulation of mitochondrial dynamics towards mitochondrial fission, via Drp1 phosphorylation at Ser616 and translocation to mitochondria. However, activation of the RAS antioxidative/anti-inflammatory axis, using Angiotensin 1-7, counteracts this effect. RAS components also modulated the microglial inflammatory response through mitochondrial dynamic changes. After interferon-γ-induced activation of human microglial cells, we observed increased mitochondrial fission and superoxide production that was inhibited by Angiotensin 1-7 treatment. Angiotensin 1-7 also inhibited mitochondrial metabolic changes induced by pro-inflammatory microglial activation. The role of RAS in mitochondrial dynamic changes was confirmed in vivo using the LPS-induced inflammation model in wild-type, AT1-KO, and AT2-KO mice. The effect of Angiotensin 1-7 is mediated by IL-10, specifically by decreasing the post-transcriptional phosphorylated Drp1 form, and translocation of STAT3 to mitochondria. Angiotensin 1-7, acting on mitochondrial Angiotensin 1-7 receptors (Mas/Mas related receptors), increased the phosphorylated form of STAT3 at Ser727, which is mediated by mitochondrial PKA activation. In conclusion, the present findings show the role of RAS components in modulation of mitochondrial dynamics and mitochondrial function, revealing the associated signaling pathways. The results lead to better understanding of the effects of RAS dysfunction in aging-related diseases, and particularly dopaminergic degeneration and neuroinflammation in Parkinson's disease.

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多巴胺能神经元和小胶质细胞中的血管紧张素系统对线粒体动力学的调控
肾素-血管紧张素系统(RAS)功能障碍与生命垃圾和衰老相关疾病有关,包括神经退行性疾病(如帕金森病)和神经炎症相关过程。线粒体功能障碍在衰老相关疾病(包括多巴胺能神经变性和神经炎症)中扮演着重要角色。然而,RAS/线粒体相互作用的机制仍有待明确。在本研究中,我们利用体外和体内模型研究了 RAS 主要成分在多巴胺能神经元和小胶质细胞线粒体动力学中的作用。在多巴胺能神经元中,我们观察到 RAS 促氧化/促炎症轴(血管紧张素 II/血管紧张素 1 型受体、AT1/NADPH 氧化酶复合物)的激活会通过 Drp1 在 Ser616 处的磷酸化和向线粒体的转位,导致线粒体动力学失调,从而导致线粒体裂变。然而,使用血管紧张素 1-7 激活 RAS 抗氧化/抗炎轴可以抵消这种影响。RAS 成分还通过线粒体的动态变化调节小胶质细胞的炎症反应。在干扰素-γ 诱导的人小胶质细胞激活后,我们观察到线粒体裂变和超氧化物生成增加,而血管紧张素 1-7 治疗抑制了线粒体裂变和超氧化物生成。血管紧张素 1-7 还能抑制促炎性小胶质细胞活化诱导的线粒体代谢变化。利用 LPS 诱导的炎症模型,在野生型、AT1-KO 和 AT2-KO 小鼠体内证实了 RAS 在线粒体动态变化中的作用。血管紧张素 1-7 的作用由 IL-10 介导,特别是通过减少转录后磷酸化的 Drp1 形式和 STAT3 向线粒体的转位。血管紧张素 1-7 作用于线粒体血管紧张素 1-7 受体(Mas/Mas 相关受体),增加了 STAT3 在 Ser727 处的磷酸化形式,这是由线粒体 PKA 激活介导的。总之,本研究结果显示了 RAS 成分在线粒体动力学和线粒体功能调节中的作用,揭示了相关的信号通路。这些结果有助于更好地理解 RAS 功能障碍对衰老相关疾病的影响,尤其是帕金森病中的多巴胺能退化和神经炎症。
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来源期刊
Aging and Disease
Aging and Disease GERIATRICS & GERONTOLOGY-
CiteScore
14.60
自引率
2.70%
发文量
138
审稿时长
10 weeks
期刊介绍: Aging & Disease (A&D) is an open-access online journal dedicated to publishing groundbreaking research on the biology of aging, the pathophysiology of age-related diseases, and innovative therapies for conditions affecting the elderly. The scope encompasses various diseases such as Stroke, Alzheimer's disease, Parkinson’s disease, Epilepsy, Dementia, Depression, Cardiovascular Disease, Cancer, Arthritis, Cataract, Osteoporosis, Diabetes, and Hypertension. The journal welcomes studies involving animal models as well as human tissues or cells.
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