磷酸戊糖途径
生物
再生(生物学)
细胞生物学
神经系统
糖酵解
转酮酶
中枢神经系统
感觉系统
平衡
神经科学
外周神经系统
脊髓
感觉神经元
坐骨神经
神经再生
神经损伤
轴浆运输
神经元
生物化学
运动神经元
作者
Yayue Song,Lucia Luengo-Gutierrez,Virag Sagi-Kiss,Guiping Kong,Helen Huang,Moritz Steinruecke,Luming Zhou,Zhulin Yuan,Francesco De Virgiliis,Istvan Pap,Charlotte Decourt,Yuyang Yan,Hee Hwan Park,Hanqi Zhang,Jiahui Wei,Elizabeth J. Want,Xuemei Tong,Zoltan Takats,Simone Di Giovanni
出处
期刊:Cell
[Cell Press]
日期:2026-01-05
卷期号:189 (4): 1211-1227.e25
被引量:7
标识
DOI:10.1016/j.cell.2025.12.003
摘要
Homeostasis and repair in the nervous system are thought to rely on distinct molecular programs. Here, we uncover an unexpected role for the pentose phosphate pathway (PPP) in peripheral sensory axons, where it supports both homeostatic mechanosensation and axonal regeneration after injury. We show that the PPP is enriched and active in sciatic nerve axoplasms, where it maintains redox balance via NADPH production, enabling physiological mechanical sensation. However, following sciatic nerve injury, the PPP is required for regeneration by fueling ribonucleotide synthesis through ribose-5-phosphate. In contrast, this pathway remains inactive after spinal cord injury (SCI), contributing to regenerative failure. Reactivation of the PPP, through neuronal transketolase overexpression or oral ribose supplementation, promotes metabolic reprogramming, restores sensory and motor axonal growth, and improves neurological recovery after SCI. These findings propose the PPP as a metabolic checkpoint in sensory neuron physiology and regeneration, highlighting its therapeutic potential for central nervous system repair.
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