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Pharmacological Microglial Inhibition Remodels the Scar Microenvironment to Support Reticulospinal Circuit Reconstruction After Spinal Cord Injury.

Due to an inhibitory scar microenvironment that prevents neural circuit reconstruction, spinal cord injury (SCI) often leads to persistent neurological dysfunction. Although neonatal murine models demonstrate that microglial inhibition enables… Click to show full abstract

Due to an inhibitory scar microenvironment that prevents neural circuit reconstruction, spinal cord injury (SCI) often leads to persistent neurological dysfunction. Although neonatal murine models demonstrate that microglial inhibition enables scar remodeling to support neuroregeneration and functional recovery, effective pharmacological suppression of microglial activation in adult SCI remain elusive. Here, this work demonstrates that early β2‐adrenergic receptor agonist treatment drives microglial transition to a homeostatic phenotype within the post‐SCI scar. This intervention reduces inhibitory extracellular matrix deposition and transforms the inhibitory microenvironments into permissive substrates for axonal regrowth. Anatomical analyses reveal regeneration of the reticulospinal tract, which establishes synaptic connectivity with thoracolumbar circuits to mediate motor recovery in a complete SCI. These findings elucidate the therapeutic potential and neural circuit mechanisms underlying pharmacological microglial modulation for SCI repair, establishing a glial‐neural circuit reparative paradigm.

Keywords: circuit; circuit reconstruction; spinal cord; sci; scar microenvironment; reconstruction spinal

Journal Title: Advanced science
Year Published: 2025

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