Litcius/Paper detail

Mitochondrial transfer from glia to neurons protects against peripheral neuropathy

Jing Xu, Yize Li, Charles Novak, Min Lee, Zihan Yan, Sangsu Bang, Aidan McGinnis, Sharat Chandra, Vivian Zhang, Wei He, Terry Lechler, Maria Pia Rodriguez, Çağla Eroğlu, Matthew L. Becker, Dmitry Velmeshev, Richard E. Cheney, Ru-Rong Ji

2026Nature24 citationsDOIOpen Access PDF

Abstract

Primary sensory neurons in dorsal root ganglia (DRG) have long axons and a high demand for mitochondria, and mitochondrial dysfunction has been implicated in peripheral neuropathy after diabetes and chemotherapy1,2. However, the mechanisms by which primary sensory neurons maintain their mitochondrial supply remain unclear. Satellite glial cells (SGCs) in DRG encircle sensory neurons and regulate neuronal activity and pain3. Here we show that SGCs are capable of transferring mitochondria to DRG sensory neurons in vitro, ex vivo and in vivo by the formation of tunnelling nanotubes with SGC-derived myosin 10 (MYO10). Scanning and transmission electron microscopy revealed tunnelling nanotube-like ultrastructures between SGCs and sensory neurons in mouse and human DRG. Blockade of mitochondrial transfer in naive mice leads to nerve degeneration and neuropathic pain. Single-nucleus RNA sequencing and in situ hybridization revealed that MYO10 is highly expressed in human SGCs. Furthermore, SGCs from DRG of people with diabetes exhibit reduced MYO10 expression and mitochondrial transfer to neurons. Adoptive transfer of human SGCs into the mouse DRG provides MYO10-dependent protection against peripheral neuropathy. This study uncovers a previously unrecognized role of peripheral glia and provides insights into small fibre neuropathy in diabetes, offering new therapeutic strategies for the management of neuropathic pain. Mitochondria that are transported from satellite glial cells in dorsal root ganglia to peripheral sensory neurons through tunneling nanotube-like structures provide protection against peripheral neuropathy.

Topics & Concepts

Sensory systemIn situ hybridizationMitochondrionNeuroscienceCell biologySensory neuronPeripheral nervous systemBiologyPeripheral neuropathyEx vivoIn vivoAdoptive cell transferAnatomySensory nervePathologyBrainstemChemistryPeripheralCentral nervous systemMedicineDorsal root ganglionNeurogliaNeuropathic painMicrogliaDorsumKnockout mouseMitochondrial DNAPain Mechanisms and TreatmentsMuscle Physiology and DisordersNerve injury and regeneration
Mitochondrial transfer from glia to neurons protects against peripheral neuropathy | Litcius