Studies on Subcellular Fractions Which Are Involved in Myelin Membrane Assembly: Isolation from Developing Mouse Brain and Characterization by Enzyme Markers, Electron Microscopy, and Electrophoresis

Abstract

An extensive scheme for the subcellular fractionation of myelinating mouse brain is presented. Several centrifugation procedures for the separation of membranes involved in myelinogenesis are critically appraised, and guidelines for selection of centrifugation conditions are given. Characteristics of subcellular fractions are presented in the form of electron micrographs; also presented are distribution of RNA and protein; electrophoretic profiles of membrane proteins, and verification of the myelin-specific basic proteins, proteolipid protein and glycoprotein by the immuno-electroblot technique; and the distribution of 8 marker enzyme activities. Myelin-related membranes differed both qualitatively and quantitatively in their complement of myelin-specific proteins. These myelin-containing fractions appear to represent different stages of myelination that coexist in developing mouse brain. These results provide the fundamental methodologies and background information for kinetic radioisotope analysis of intracellular events in the assembly of myelin presented in a companion article.