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Pré-Publication, Document De Travail Année : 2021

Inhibiting microglia proliferation after spinal cord injury improves recovery in mice and nonhuman primates

Christophe Goze-Bac

Résumé

Abstract No curative treatment is available for any deficits induced by spinal cord injury (SCI). Following injury, microglia undergo highly diverse activation processes, including proliferation, and play a critical role on functional recovery. In a translational objective, we investigated whether a transient pharmacological reduction of microglia proliferation after injury is beneficial for functional recovery after SCI in mice and nonhuman primates. The colony stimulating factor-1 receptor (CSF1R) regulates proliferation, differentiation, and survival of microglia, we thus used an oral administration of GW2580, a CSF1R inhibitor. First, transient post-injury GW2580 administration in mice improves motor function recovery, promotes tissues preservation and/or reorganization (identified by coherent anti-stokes Raman scattering microscopy), and modulates glial reactivity. Second, post-injury GW2580-treatment in nonhuman primates reduces microglia proliferation, improves functional motor function recovery, and promotes tissue protection. Notably, three months after lesion microglia reactivity returned to baseline value. Finally, to initiate the investigation on molecular mechanisms induced by a transient post-SCI GW2580-treatment, we used microglia-specific transcriptomic analysis in mice. Notably, we detected a downregulation in the expression of inflammatory-associated genes and we identified genes that were up-regulated by SCI and further downregulated by the treatment. Thus, a transient oral GW2580 treatment post-injury may provide a promising therapeutic strategy for SCI patients and may also be extended to other central nervous system disorders displaying microglia activation.

Dates et versions

hal-03450458 , version 1 (26-11-2021)

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Citer

Gaëtan Poulen, Emilie Aloy, Claire Bringuier, Nadine Mestre-Francés, Emaëlle V.F. Artus, et al.. Inhibiting microglia proliferation after spinal cord injury improves recovery in mice and nonhuman primates. 2021. ⟨hal-03450458⟩
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