Increased synaptic turnover in injured cortical axons: exploring the role of SARM1 ablation.

IF 4.1 4区医学 Q2 NEUROSCIENCES

Frontiers in Synaptic Neuroscience Pub Date : 2026-02-23 eCollection Date: 2026-01-01 DOI:10.3389/fnsyn.2026.1741328

Ensieh Izadi, William Bennett, Jessica Collins, Aidan Bindoff, Anna King, Alison Canty

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Abstract

Introduction: Programmed axon degeneration significantly affects neural connectivity, however, the underlying mechanisms remain poorly understood, particularly in cortical regions. Sterile Alpha and TIR motif-containing protein 1 (SARM1) is a known regulator of axon degeneration in the peripheral nervous system, but its role in cortical axon plasticity, particularly during injury conditions, remains unclear. This study examined the role of SARM1 in synaptic connectivity and remodelling in the adult sensory-motor cortex under normal physiological conditions and following acute axonal injury.

Methods: Adult male Thy1-GFP-M mice (3-12 months) expressing EGFP in excitatory neurons were also either wild-type (WT-GFP) or null for SARM1 (SARM1KO-GFP). Using in vivo multiphoton microscopy, long cortical axon segments (~335 μm ± 140 μm), with terminaux and en passant synaptic boutons in the upper layers of the cortical neuropil, were repeatedly imaged at 48-h intervals to assess axon morphology, synaptic density, and synaptic turnover in the presence and absence of SARM1.

Results: Without injury, axon morphology, synaptic density, and turnover were similar between WT and SARM1KO groups, suggesting that SARM1 is not necessary for maintaining baseline cortical synaptic connectivity. Following axotomy by laser lesion, the non-degenerating proximal axon (still connected to the soma) showed significant changes in synaptic plasticity, with an increased rate of loss of synapses.

Discussion: Our findings suggest that SARM1 plays no role in the remodelling of synapses in the proximal axon after an acute axonal injury.

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损伤皮质轴突突触转换增加：探讨SARM1消融的作用。

导读：程序性轴突退化显著影响神经连通性，然而，其潜在机制仍然知之甚少，特别是在皮层区域。无菌α和TIR基序蛋白1 （SARM1）是已知的外周神经系统轴突退化的调节因子，但其在皮层轴突可塑性中的作用，特别是在损伤条件下，尚不清楚。本研究探讨了正常生理条件下和急性轴索损伤后成人感觉-运动皮层中SARM1在突触连通性和突触重塑中的作用。方法：在兴奋性神经元中表达EGFP的成年雄性Thy1-GFP-M小鼠（3-12 月龄）也为野生型（WT-GFP）或无SARM1 （sarm1go - gfp）。使用体内多光子显微镜，每隔48小时对皮层轴突长段（~335 μm ± 140 μm），皮层神经皮层上层有末端和瞬时突触扣进行重复成像，以评估SARM1存在和不存在时轴突形态、突触密度和突触更新。结果：在没有损伤的情况下，WT组和SARM1KO组之间的轴突形态、突触密度和周转率相似，这表明SARM1对于维持基线皮质突触连通性不是必需的。激光切除轴突后，未变性的近端轴突（仍与体细胞相连）突触可塑性发生显著变化，突触丧失率增加。讨论：我们的研究结果表明，在急性轴突损伤后，SARM1在近端轴突突触的重塑中没有作用。

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