In vivo phosphorylation of myelin basic proteins: single and double isotope incorporation in developmentally related myelin fractions.

The phosphorylation of myelin basic proteins (MBPs) was studied in developing mouse brain. Based on our previous work we postulated that phosphorylation of MBPs takes place prior to their appearance in the myelin compartment as well as within the myelin sheath. To further test this hypothesis we utilized a subfractionation protocol that yields brain fractions enriched in myelin membranes of differing developmental stages. Incorporation of radioactive phosphate into MBPs was studied in each of the subcellular fractions. After 5- and 15-min incubations of isotope in vivo the highest specific radioactivities (SAs) of MBPs were found in the least mature myelin fractions. Incorporation of 32P in MBPs was greater into serine residues than threonine residues in all of the subcellular fractions studied. The relative turnover of MBP phosphates was studied in each of the subcellular myelin fractions using a time-staggered, double isotope methodology. The most rapid equilibration of MBP phosphates with the trichloroacetic acid (TCA)-soluble phosphate pool occurred in the most mature myelin fractions indicating that the highest turnover of MBP phosphates occurs in the most mature myelin fractions. The SAs and turnover rates of each of the four commonly observed mouse MBPs (14, 17, 18.5, and 21.5 kDa) were similar in any particular subfraction demonstrating that the MBP phosphotransferase system(s) acts on each of the MBPs in a similar manner.