Early and late appearance of neurofilament phosphorylation events in nerve regeneration.

Neurofilament phosphorylation in regenerating rat sciatic nerve was studied by indirect immunofluorescence with monoclonal antibodies reacting with phosphorylated epitopes of the 2 large polypeptides of the neurofilament protein triplet (NF 150K, NF 200K). One group of antibodies decorated axons early in the process. In fact, no differences were seen in double labeled sections between these antibodies and polyclonal neurofilament antibodies as to their reactivity with the distal stump of transected sciatic nerves. Another group stained axons after they had completed their elongation, i.e., after they had reached the distal part of the denervated sciatic nerve. In general, the epitopes recognized by antibodies in this group appeared more sensitive to phosphatase digestion as compared to the first group. Furthermore, there was a good correlation between the thickness of the regenerated axons and staining with these monoclonal antibodies. Thick axons (like those observed in normal nerves) were stained, while bundles of thin axons remained unstained. Monoclonal II32 stained regenerated axons in a remarkable segmental pattern. With this antibody, continuous decoration of the axons was still not observed 7 weeks after transection, the longest follow-up period in this study. We suggest that some neurofilament phosphorylation events may contribute to the stabilization of the axonal cytoskeleton and that abnormalities persist in regenerated axons as to the extent of neurofilament phosphorylation.