AI Article Synopsis

  • Myelination, a crucial process for nerve function, relies on the production of myelin proteins, influenced by specific signaling pathways (Nrg1/ErbB/Shp2).
  • A new method using stable isotope labeling (SILAC) was developed to track myelin protein production in mice, revealing slower synthesis in the postnatal peripheral nervous system.
  • Activation of MAPK signaling can enhance myelin production even when key signaling pathways (ErbB3/Shp2) are disrupted, showing potential for new therapies targeting myelination issues.

Article Abstract

Myelination depends on the synthesis of large amounts of myelin transcripts and proteins and is controlled by Nrg1/ErbB/Shp2 signaling. We developed a novel pulse labeling strategy based on stable isotope labeling with amino acids in cell culture (SILAC) to measure the dynamics of myelin protein production in mice. We found that protein synthesis is dampened in the maturing postnatal peripheral nervous system, and myelination then slows down. Remarkably, sustained activation of MAPK signaling by expression of the Mek1DD allele in mice overcomes the signals that end myelination, resulting in continuous myelin growth. MAPK activation leads to minor changes in transcript levels but massively up-regulates protein production. Pharmacological interference in vivo demonstrates that the effects of activated MAPK signaling on translation are mediated by mTOR-independent mechanisms but in part also by mTOR-dependent mechanisms. Previous work demonstrated that loss of ErbB3/Shp2 signaling impairs Schwann cell development and disrupts the myelination program. We found that activated MAPK signaling strikingly compensates for the absence of ErbB3 or Shp2 during Schwann cell development and myelination.

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http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3923970PMC
http://dx.doi.org/10.1101/gad.230045.113DOI Listing

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