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Sarm1 is not necessary for activation of neuron-intrinsic growth programs yet required for the Schwann cell repair response and peripheral nerve regeneration.

Ligia B SchmitdHannah HafnerAyobami WardElham Asghari AdibNatalia P BiscolaRafi KohenManav PatelRachel E WilliamsonEmily DesaiJulianna BennettGrace SaxmanMitre AthaiyaDavid WilbornJaisha ShumpertXiao-Feng ZhaoRiki KawaguchiDaniel H GeschwindAhmet HokePeter ShragerCatherine A CollinsLeif A HavtonAshley L KalinskiRoman J Giger
Published in: bioRxiv : the preprint server for biology (2024)
Upon peripheral nervous system (PNS) injury, severed axons undergo rapid SARM1-dependent Wallerian degeneration (WD). In mammals, the role of SARM1 in PNS regeneration, however, is unknown. Here we demonstrate that Sarm1 is not required for axotomy induced activation of neuron-intrinsic growth programs and axonal growth into a nerve crush site. However, in the distal nerve, Sarm1 is necessary for the timely induction of the Schwann cell (SC) repair response, nerve inflammation, myelin clearance, and regeneration of sensory and motor axons. In Sarm1-/- mice, regenerated fibers exhibit reduced axon caliber, defective nerve conduction, and recovery of motor function is delayed. The growth hostile environment of Sarm1-/- distal nerve tissue was demonstrated by grafting of Sarm1-/- nerve into WT recipients. SC lineage tracing in injured WT and Sarm1-/- mice revealed morphological differences. In the Sarm1-/- distal nerve, the appearance of p75 NTR +, c-Jun+ SCs is significantly delayed. Ex vivo , p75 NTR and c-Jun upregulation in Sarm1-/- nerves can be rescued by pharmacological inhibition of ErbB kinase. Together, our studies show that Sarm1 is not necessary for the activation of neuron intrinsic growth programs but in the distal nerve is required for the orchestration of cellular programs that underlie rapid axon extension.
Keyphrases
  • peripheral nerve
  • stem cells
  • public health
  • single cell
  • minimally invasive
  • cell proliferation
  • poor prognosis
  • spinal cord injury
  • stress induced
  • mesenchymal stem cells
  • drug induced
  • quantum dots