Increased expression of pp60c‐src protein‐tyrosine kinase during peripheral nerve regeneration

Abstract

Since little is known about the intracellular changes that take place in response to Schwann cell‐neuron interactions that occur during neurite outgrowth and myelination, we investigated the expression of protein‐tyrosine kinase, pp60^c‐src, nerve regeneration through a silicone tube. Segments of regenerated nerve, extracted at various times following nerve‐transection, showed an induction of in vitro c‐src kinase activity as measured by autophosphorylation of immunoprecipitated pp60^c‐src. This activity occurred at 7 days following nerve transaction coincident with the onset of neurite outgrowth in vivo. This kinase activity, which peaked out between 21 and 35 days and decreased thereafter, appeared to be associated with axonal growth and myelination, but not mitogenesis in the tube. Analysis of c‐src proteins levels by Western blot showed a similar expression profile as that of the kinase activity. Qualitatively, the expression of an immunoreactive c‐src band, migrating slightly slower than pp60, was detected in extracts of regenerating nerve segments as well as in the corresponding L4 and L5 dorsal root ganglia. This protein may be the CNS neuronal‐specificform (pp60 ⁺ ) of the c‐src protein. In situ hybridization revealed that Schwann cells and sensory and motor neurons associated with the regenerated sciatic nerve were positive for c‐src mRNA during regeneration possibly accounting for the increased src protein expression during regeneration, Since the in creased expression of pp60^c‐src in regenerated nerve segments coincides with both axonal sprouting and myelination, our findings suggest that the c‐src protein may play a role in Schwann cell‐neuron interactions which facilitate the occurrence of these events during regeneration. In addition, although pp60 ⁺ generally not detectable in the mature PNS, our findings show that this protein may be induced during conditions of PNS differentiation which promote neurite outgrowth.