# Repetitive trans-spinal magnetic stimulation improves motor function in rats with spinal cord injury and is associated with upregulation of EphA4 signaling pathway proteins

**Authors:** Hao Liu, Yu Fang, Qian Deng, Jiucai Ye, Jielan Zhou, Rong Luo

PMC · DOI: 10.3389/fneur.2026.1726570 · 2026-01-16

## TL;DR

Repetitive trans-spinal magnetic stimulation improves motor function in rats with spinal cord injury by boosting proteins in the EphA4 signaling pathway.

## Contribution

This study identifies the EphA4 signaling pathway as a potential mechanism for the motor recovery effects of rTSMS in SCI.

## Key findings

- rTSMS improved BBB locomotor scores in rats with acute spinal cord injury.
- rTSMS upregulated EphA4 mRNA and proteins like VGluT2, EphrinB3, Chn1, and Nck1.
- The EphA4 signaling pathway appears to be involved in the recovery of motor function after SCI.

## Abstract

Spinal cord injury (SCI) is a highly disabling neurological condition that remains a worldwide challenge in healthcare. Our previous studies found that repetitive trans-spinal magnetic stimulation (rTSMS) applied at the L2 spinal segment yielded the most significant improvement in motor function in rats with SCI; however, the underlying mechanism remains unclear. Recent research indicates that disruption of the EphA4 signaling pathway in glutamatergic interneurons within the spinal cord leads to a loss of motor rhythm and a hopping gait in rats. Conversely, activating the locomotor central pattern generator (CPG) located in the L1-2 spinal segments promotes the recovery of motor function. Thus, by examining the effects of rTSMS on proteins associated with the EphA4 signaling pathway, this study provides novel insights for future investigations into its potential mechanisms of action.

A multidimensional approach, including behavioral assessments, immunofluorescence, RT-PCR, and Western blotting, was employed to evaluate the effects of rTSMS on motor function in rats with acute SCI. We also assessed its impact on EphA4 mRNA expression levels and the synthesis of related proteins, including VGluT2, EphA4, EphrinB3, and downstream effector molecules Chn1 and Nck1.

The results showed that rTSMS improved the Basso, Beattie, and Bresnahan (BBB) locomotor scores in rats with acute spinal cord injury. It also exerted positive effects on upregulating the expression level of EphA4 mRNA and promoting the synthesis of proteins, including VGluT2, EphA4, EphrinB3, and the downstream effector molecules Chn1 and Nck1.

This study suggests that repetitive trans-spinal magnetic stimulation effectively improves motor function after acute spinal cord injury, concomitant with an upregulation of EphA4 pathway-related proteins, thereby providing a new direction for future mechanistic research.

## Linked entities

- **Genes:** EPHA4 (EPH receptor A4) [NCBI Gene 2043], SLC17A6 (solute carrier family 17 member 6) [NCBI Gene 57084], efnb3.L (ephrin B3 L homeolog) [NCBI Gene 378621], CHN1 (chimerin 1) [NCBI Gene 1123], NCK1 (NCK adaptor protein 1) [NCBI Gene 4690]
- **Proteins:** EPHA4 (EPH receptor A4), SLC17A6 (solute carrier family 17 member 6), efnb3.L (ephrin B3 L homeolog), CHN1 (chimerin 1), NCK1 (NCK adaptor protein 1)
- **Diseases:** spinal cord injury (MONDO:0043797)
- **Species:** Rattus norvegicus (taxon 10116)

## Full-text entities

- **Genes:** Chn1 (chimerin 1) [NCBI Gene 84030], Epha4 (Eph receptor A4) [NCBI Gene 316539] {aka RGD1560587}, Efnb3 (ephrin B3) [NCBI Gene 360546] {aka ELK-L3}, Nck1 (NCK adaptor protein 1) [NCBI Gene 300955], Slc17a6 (solute carrier family 17 member 6) [NCBI Gene 84487] {aka Dnpi, Vglut2}
- **Diseases:** neurological condition (MESH:D019636), SCI (MESH:D013119)
- **Species:** Rattus norvegicus (brown rat, species) [taxon 10116]

## Figures

4 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12855122/full.md

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Source: https://tomesphere.com/paper/PMC12855122