Centripetal migration and prolonged retention of microglia promotes spinal cord injury repair

小胶质细胞 医学 神经学 脊髓损伤 脊髓 神经科学 神经炎症 物理医学与康复 心理学 炎症 内科学 精神科
作者
Jianan Ye,Fangli Shan,Xinzhong Xu,Chao Liang,Ningyuan Zhang,Hao Hu,Jianjian Li,Fangru Ouyang,Jingwen Wang,Yuanzhe Zhao,Zhida Ma,Congpeng Meng,Ziyu Li,Shuisheng Yu,Juehua Jing,Meige Zheng
出处
期刊:Journal of Neuroinflammation [BioMed Central]
卷期号:22 (1) 被引量:3
标识
DOI:10.1186/s12974-025-03411-9
摘要

Recent studies have confirmed the critical role of neonatal microglia in wound healing and axonal regeneration following spinal cord injury (SCI). However, the limited migration of microglia to the center of adult lesion may significantly impede their potential benefits. We established a model of microglial centripetal migration and prolonged retention in C57BL/6J and transgenic mice by injecting exogenous C-X3-C motif chemokine ligand 1 (CX3CL1) and macrophage colony-stimulating factor (M-CSF) directly into the lesion site post-SCI. Wound healing and axonal preservation/regrowth was assessed anatomically, and kinematics analysis was conducted to determine the recovery of locomotor function. We identified decreased expression and perilesional distribution of CX3CL1 as the primary reason for the limited centripetal migration of microglia. In situ injection of CX3CL1 into the lesion core promoted microglial centripetal migration, but alone did not improve functional recovery. Nevertheless, a combinational administration of CX3CL1 and M-CSF fostered both centripetal migration and prolonged retention of microglia, thereby effectively displacing blood-derived macrophage infiltration and optimizing wound healing and axonal preservation/regrowth after SCI. Notably, the beneficial effects of CX3CL1 and M-CSF co-administration were specifically blocked in C-X3-C motif chemokine receptor 1 (CX3CR1)-deficient mice. These phenomena may be related to the increase in spleen tyrosine kinase (SYK) levels, which boosts centripetal microglial phagocytosis. Our study uncovers the criticality of microglial location and abundance in orchestrating SCI repair, highlighting centripetal microglial dynamics as valuable targets for therapeutic intervention.
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