Poster Sessions BP03: Myelin, Demyelination and Diseases of Myelin. Myelin and myelination in PLP‐null mice

Abstract

The myelin proteolipid protein (PLP) is the major structural protein of CNS myelin, accounting for approximately half of total myelin protein. We studied synthesis and accumulation of myelin components for two months postnatally in PLP‐null mice and age‐matched controls. Accumulation of myelin, as assayed by levels of whole brain cerebroside and myelin basic protein, was normal in the knockout mice. The rate of cerebroside synthesis in the knockout mice was also normal. Myelin was isolated at several ages during development, using a standard subcellular fractionation protocol. The yield of ‘purified myelin’ isolated from a large particle (crude mitochondrial) fraction was reduced in PLP‐null mice, but increased amounts of ‘myelin’ were obtained in the small particle (crude microsomal) fraction. This ‘myelin’ in the crude microsomal fraction was identified as such by flotation on 0.85 m sucrose and the myelin‐characteristic 2 : 1 molar ratio of cholesterol to cerebroside. This suggests myelin from PLP‐null mice is physically more fragile than normal myelin, and that during tissue dispersion, much more PLP‐null myelin is fragmented into small vesicles than is the case for normal myelin. Three hours after intracranial injection of tritiated acetate into PLP‐null mice, cerebroside in myelin isolated from the large particle fraction was at a similar specific radioactivity to that isolated from the small particle (crude microsomal) fraction, suggesting that the most recently deposited PLP‐null myelin is not preferentially unstable. The increased fragility evident during tissue dispersion is indicative of an underlying structural abnormality in PLP‐null myelin. Whether this inherent structural instability affects myelin metabolism is under investigation.Acknowledgements: Supported by USPHS & NMSS grants.