星形胶质细胞是阿尔茨海默病中协调能量驱动的大脑脆弱性的代谢传感器。

IF 4 3区医学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY

Journal of Neurochemistry Pub Date : 2025-10-01 DOI:10.1111/jnc.70252

Leyre Sánchez de Muniain, Paula Escalada, María J Ramírez, Maite Solas

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引用次数: 0

摘要

阿尔茨海默病（AD），与衰老相关的主要神经退行性疾病，出现在一个矛盾的代谢景观中。尽管由于累积的损伤和压力导致细胞能量需求增加，但总体能量消耗保持稳定或随着年龄的增长而下降。大脑作为中央调节器，通过激活能量保存机制来响应来自衰老组织的高代谢信号。在这种情况下，星形胶质细胞战略性地位于血管和神经元之间，作为能量传感器发挥关键作用，适应全身应激并调节脑代谢。这篇综述探讨了星形胶质细胞如何在早期阶段进行代谢重编程，随着时间的推移可能变得不适应，加剧神经炎症、氧化应激和加速AD。通过了解星形胶质细胞能量学，我们发现了可以改变阿尔茨海默病治疗的生物标志物和疗法的新途径。

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Astrocytes as Metabolic Sensors Orchestrating Energy-Driven Brain Vulnerability in Alzheimer's Disease.

Alzheimer's disease (AD), the leading neurodegenerative disorder linked to aging, emerges within a paradoxical metabolic landscape. Despite rising cellular energy demands due to accumulated damage and stress, overall energy expenditure remains stable or declines with age. The brain, acting as the central regulator, responds to hypermetabolic signals from aged tissues by activating energy-conserving mechanisms. In this scenario, astrocytes, strategically located between blood vessels and neurons, play a pivotal role as energy sensors, adapting to systemic stress and modulating brain metabolism. This review explores how astrocytes undergo metabolic reprogramming in the early stages, potentially becoming maladaptive over time, fueling neuroinflammation, oxidative stress, and accelerating AD. By understanding astrocyte energetics, we uncover new avenues for biomarkers and therapies that could transform AD treatment.

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来源期刊

Journal of Neurochemistry 医学-神经科学

CiteScore

9.30

自引率

2.10%

发文量

181

审稿时长

2.2 months

期刊介绍： Journal of Neurochemistry focuses on molecular, cellular and biochemical aspects of the nervous system, the pathogenesis of neurological disorders and the development of disease specific biomarkers. It is devoted to the prompt publication of original findings of the highest scientific priority and value that provide novel mechanistic insights, represent a clear advance over previous studies and have the potential to generate exciting future research.