PMID: 7543946Aug 1, 1995Paper

Adhesive properties of proteolipid protein are responsible for the compaction of CNS myelin sheaths

The Journal of Neuroscience : the Official Journal of the Society for Neuroscience
D BoisonW Stoffel

Abstract

We have studied the molecular function of proteolipid protein (PLP), the main integral membrane protein of CNS myelin, by generating mice lacking PLP expression. Here, we demonstrate that these PLP-minus mice show no pleiotropism as mice carrying point mutations within the PLP gene. The expression of other myelin genes (myelin basic protein, MBP; myelin associated glycoprotein, MAG; UDP-galactose-ceramide galactosyl transferase, CGT) is unimpaired on the RNA level. Protein level immunofluorescence analysis by confocal microscopy reveals that in PLP-minus mice there is a complete absence of PLP, a scattered appearance of MBP, and MAG expressed more widely in regions lacking MBP staining, which may be a compensatory mechanism. In electron microscopy the myelin lamellae of the ensheathed CNS axons are loosely wrapped with wide extracellular spaces between turning loops. Intraperiod dense lines are missing. The lateral loops of the paranode form regular axoglial junctions. In PLP-minus mice axons form regular axoglial junctions. In PLP-minus mice axons with large diameters are loosely myelinated, whereas small axons remain unmyelinated. Functionally, the mutant mice show deficits in their locomotor activity. We propose that adhesio...Continue Reading

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