Role of microglial metabolic reprogramming in Parkinson's disease

小胶质细胞 神经炎症 重编程 帕金森病 生物 神经科学 多巴胺能 发病机制 炎症 多巴胺 免疫学 医学 疾病 内科学 生物化学 细胞
作者
Zhengping Huang,Shufen Liu,Jian-long Zhuang,Linyi Li,Mi-mi Li,Yali Huang,Yanhong Chen,Xiangrong Chen,Shu Lin,Lichao Ye,Chunnuan Chen
出处
期刊:Biochemical Pharmacology [Elsevier BV]
卷期号:213: 115619-115619 被引量:22
标识
DOI:10.1016/j.bcp.2023.115619
摘要

Parkinson's disease (PD) is a common age-related neurodegenerative disorder characterized by damage to nigrostriatal dopaminergic neurons. Key pathogenic mechanisms underlying PD include alpha-synuclein misfolding and aggregation, impaired protein clearance, mitochondrial dysfunction, oxidative stress, and neuroinflammation. However, to date, no study has confirmed the specific pathogenesis of PD. Similarly, current PD treatment methods still have shortcomings. Although some emerging therapies have proved effective for PD, the specific mechanism still needs further clarification. Metabolic reprogramming, a term first proposed by Warburg, is applied to the metabolic energy characteristics of tumor cells. Microglia have similar metabolic characteristics. Pro-inflammatory M1 type and anti-inflammatory M2 type are the two types of activated microglia, which exhibit different metabolic patterns in glucose, lipid, amino acid, and iron metabolism. Additionally, mitochondrial dysfunction may be involved in microglial metabolic reprogramming by activating various signaling mechanisms. Functional changes in microglia resulting from metabolic reprogramming can cause changes in the brain microenvironment, thus playing an important role in neuroinflammation or tissue repair. The involvement of microglial metabolic reprogramming in PD pathogenesis has been confirmed. Neuroinflammation and dopaminergic neuronal death can effectively be reduced by inhibiting certain metabolic pathways in M1 microglia or reverting M1 cells to the M2 phenotype. This review summarizes the relationship between microglial metabolic reprogramming and PD and provides strategies for PD treatment.
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