The effects of dephosphorylation on the structure of the projections of neurofilament

Abstract

Carboxy-terminal tail domains of larger molecular mass subunits (NF-M and NF-H) of neurofilaments (NFs), which are the highly phosphorylated moieties, were observed as thin flexible filaments projecting from NF core filaments by rotary shadowing (Hisanaga and Hirokawa, 1988). Dephosphorylation of NFs has been suspected to affect the structures and the functions of the carboxy-terminal tail projections. We report here the effects of the dephosphorylation on the structure of NFs studied by electron microscopy. (1) The structures of carboxy-terminal tail projections after dephosphorylation were compared with those of the control NFs by low-angle rotary shadowing. This was examined with 2 samples; the isolated neurofilaments and the short filaments assembled from NF-H. Both the dephosphorylated NFs and the short filaments showed many projections laterally extending from core filaments similar to those observed in the control samples. (2) With respect to the structure of NF in physiological solution, the density of NFs in the precipitates was examined by thin-section electron microscopy. No difference in the density was noted between control and dephosphorylated NFs. (3) The ability to form cross-bridges in vitro was examined by quick-freeze, deep-etch electron microscopy. The structure and frequency of cross-bridges appeared to be similar in both control and dephosphorylated NFs. (4) Phosphate determination revealed that about 90% of the phosphate groups of NF-H subunit were removed by treatment with E. coli alkaline phosphatase. These results indicated that the dephosphorylation of NF did not affect the structure and the ability to form cross-bridges of the carboxy-terminal tail projections in vitro.