Cleavage of Myelin Basic Protein by Neutral Protease Activity of Human White Matter and Myelin

Abstract

Polypeptides arising from neutral in vitro proteolysis of myelin basic protein (MBP) of human brain were evaluated by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. At pH 7 a marked breakdown of MBP resulted in the formation of 8-12 polypeptides ranging from 6-17 kD [kilodalton] in MW. As neutral proteolytic activity was not eliminated by either gel filtration or cation-exchange chromatography, acid-soluble protease(s) involved probably have a size and electric charge similar to that of MBP. The enzymatic nature of neutral proteolysis was ascertained by heat inactivation and inhibition by .alpha.2-macroglobulin. Incomplete inhibition of proteolysis and the failure of small peptides (< 6 kD) to show up on electrophoresis seem to suggest that MBP was degraded by exopeptic proteases as well. Acid extracts of purified myelin yielded polypeptides similar to those of MBP of delipidated white matter. The results are consistent with a sequential limited proteolysis of MBP by neutral proteases probably associated with myelin and possibly related to the in situ catabolism of MBP in man.