绿原酸作为神经保护剂：增强可塑性，促进大脑健康和功能储备。

CNS & neurological disorders drug targets Pub Date : 2025-02-27 DOI:10.2174/0118715273339375250116042441

Elizabeth Hernández-Echeagaray, Rubén Vázquez-Roque, Julio Cesar Morales-Medina, Francisco M Torres-Cruz, Elibeth Monroy, Gulmaro Galindo-Paredes, Gabriel Gutiérrez-Ospina, Gonzalo Flores

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引用次数: 0

摘要

功能储备，即在面临神经退行性变时保证大脑有资源维持关键功能和过程的过程，可能在名义上健康的受试者中通过终生促进神经可塑性的措施得到加强。方法：在这项工作中，我们给药绿原酸（CGA）来评估其促进健康小鼠额叶皮质-纹状体回路功能形态可塑性的能力，这条通路经常暴露于氧化挑战、兴奋性毒性和神经炎症。通过评估CGA或载药C57BL/6雄性小鼠的自发运动行为（开放场）、神经元激活的相对大小（c-Fos阳性神经元的数量）、树突重塑（高尔基-考克斯浸透）、脑源性神经营养因子（BDNF）的可用性（半定量Western blotting）和脂质过氧化（TBARS测定）来估计神经可塑性的程度。结果：CGA增加了背纹状体（Ds）中的c-Fos，改变了额皮质（FC）和Ds中BDNF和Pro-BDNF的可用性，诱导了FC和Ds神经元的树突重塑，减少了FC和Ds的脂质过氧化，而不影响运动表现或TrkB受体亚型的可用性。结论：CGA通过促进健康雄性小鼠神经元可塑性来增加功能储备。未来的研究应该确定这些额外的资源是否真的能防止神经变性。

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Chlorogenic Acid as a Neuroprotective Agent: Enhancing Plasticity and Promoting Brain Health and Functional Reserve.

Introduction: Functional reserve, the process that warrants the brain to have resources to maintain key functions and processes when facing neurodegeneration, may be strengthened in nominally healthy subjects by measures that prompt neural plasticity throughout life.

Method: In this work, we administered Chlorogenic Acid (CGA) to evaluate its ability to promote functional morphological plasticity in the frontal cortical-striatal circuit of healthy mice, a pathway exposed constantly to oxidative challenges, excitotoxicity, and neuroinflammation. The magnitude of neural plasticity was estimated by assessing spontaneous motor behavior (open field), the relative magnitude of neuronal activation (number of c-Fos positive neurons), dendritic remodeling (Golgi- Cox impregnation), the availability of Brain-Derived Neurotrophic Factor (BDNF) (semiquantitative Western blotting), and lipid peroxidation (TBARS assay) in CGA- or vehicle-administered C57BL/6 male mice.

Results: CGA administration increased c-Fos in the Dorsal striatum (Ds), changed the availability of BDNF and Pro-BDNF in the Frontal Cortex (FC) and DS, induced dendritic remodeling in FC and DS neurons, and reduced FC and DS lipid peroxidation without affecting motor performance or the availability of TrkB receptor isoforms.

Conclusion: Our findings suggest that CGA increases functional reserve by promoting neuronal plasticity in healthy male mice. Future research should determine whether these additional resources indeed protect against neurodegeneration.

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CNS & neurological disorders drug targets

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