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Microglia limit lesion expansion and promote functional recovery after spinal cord injury in mice

View ORCID ProfileFaith H. Brennan, View ORCID ProfileJodie C.E. Hall, Zhen Guan, View ORCID ProfilePhillip G. Popovich
doi: https://doi.org/10.1101/410258
Faith H. Brennan
The Ohio State University
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Jodie C.E. Hall
The Ohio State University
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Zhen Guan
The Ohio State University
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Phillip G. Popovich
The Ohio State University
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  • For correspondence: phillip.popovich@osumc.edu
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Abstract

Traumatic spinal cord injury (SCI) elicits a robust intraspinal inflammatory reaction that is dominated by at least two major subpopulations of macrophages, i.e., those derived from resident microglia and another from monocytes that infiltrate the injury site from the circulation. Previously, we implicated monocyte-derived macrophages (MDMs) as effectors of acute post-injury pathology after SCI; however, it is still unclear whether microglia also contribute to lesion pathology. Assigning distinct functional roles to microglia and MDMs in vivo has been difficult because these CNS macrophage subsets are morphologically and phenotypically similar. Here, to characterize the role that microglia play in experimental models of thoracic spinal contusion or lumbar crush injury, mice were fed vehicle chow or chow laced with a CSF1R receptor antagonist, PLX5622. Feeding PLX5622 depletes microglia. In both groups, spontaneous recovery of hindlimb motor function was evaluated for up to 8 weeks post-SCI using open-field and horizontal ladder tests. Histopathological assessment of intraspinal pathology was assessed in 8 week post-injury tissues. In both SCI models, microglia depletion exacerbated lesion pathology and impaired spontaneous recovery of hind limb function. Notably, the loss of microglia prevented astroglial encapsulation of the lesion core, which was associated with larger lesions, enhanced demyelination and neuron loss and a larger inflammatory response that was dominated by monocyte-derived macrophages. The neuroprotective and healing properties of microglia become obvious in the subacute phases of recovery; microglia depletion up to 7 days post-injury (dpi) had no apparent effect on recovery while delayed depletion from 8-28dpi exacerbated lesion pathology and significantly impaired functional recovery. These data suggest that microglia have essential tissue repair functions after SCI. Selective enhancement of microglial activities may be a novel strategy to preserve tissue and promote recovery of function after neurotrauma.

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Posted September 06, 2018.
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Microglia limit lesion expansion and promote functional recovery after spinal cord injury in mice
Faith H. Brennan, Jodie C.E. Hall, Zhen Guan, Phillip G. Popovich
bioRxiv 410258; doi: https://doi.org/10.1101/410258
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Microglia limit lesion expansion and promote functional recovery after spinal cord injury in mice
Faith H. Brennan, Jodie C.E. Hall, Zhen Guan, Phillip G. Popovich
bioRxiv 410258; doi: https://doi.org/10.1101/410258

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