Neuronal glycolysis meets mitophagy to govern organismal wellbeing.

IF 11.4 1区医学 Q1 ENDOCRINOLOGY & METABOLISM

Trends in Endocrinology and Metabolism Pub Date : 2025-07-02 DOI:10.1016/j.tem.2025.05.005

Daniel Jimenez-Blasco, Rebeca Lapresa, Jesus Agulla, Angeles Almeida, Juan P Bolaños

引用次数: 0

Abstract

Neurons are exceptionally energy-demanding cells but have limited energy storage, relying on a constant supply of fuel and oxygen. Although glucose is the brain's main energy source, neurons reduce glycolysis under normal conditions. This surprising strategy helps to protect mitochondria by preserving nicotinamide-adenine dinucleotide (NAD⁺), a vital cofactor consumed by glycolysis. NAD⁺ is needed for sirtuin-driven mitophagy, a process that removes damaged mitochondria. By saving NAD⁺, neurons can maintain healthy, energy-efficient mitochondria. These mitochondria then use alternative fuels such as lactate and ketone bodies from astrocytes. Here, we discuss the way in which this balance between reduced glycolysis and active mitophagy supports brain function and overall metabolic health, highlighting a sophisticated system that prioritizes mitochondrial quality for long-term cognitive performance and systemic homeostasis.

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神经元糖酵解与线粒体自噬相结合，共同控制机体健康。

神经元是特别需要能量的细胞，但能量储存有限，依赖于持续的燃料和氧气供应。虽然葡萄糖是大脑的主要能量来源，但在正常情况下，神经元会减少糖酵解。这种令人惊讶的策略有助于通过保存烟酰胺腺嘌呤二核苷酸（NAD+）来保护线粒体，NAD+是糖酵解消耗的重要辅助因子。NAD+是sirtuin驱动的线粒体自噬（一种去除受损线粒体的过程）所必需的。通过保存NAD+，神经元可以维持健康、高效的线粒体。然后，这些线粒体使用星形胶质细胞中的乳酸和酮体等替代燃料。在这里，我们讨论了减少糖酵解和活跃线粒体自噬之间的平衡如何支持脑功能和整体代谢健康，强调了一个复杂的系统，优先考虑线粒体质量的长期认知表现和系统稳态。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Trends in Endocrinology and Metabolism 医学-内分泌学与代谢

CiteScore

20.10

自引率

0.00%

发文量

审稿时长

82 days

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