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© The Rockefeller University Press, 0021-9525
The Journal of Cell Biology

Survival of, and competition between, oligodendrocytes expressing different alleles of the Plp gene

¹ Applied Neurobiology Group, Institute of Comparative Medicine, University of Glasgow, Glasgow G61 1QH, Scotland
² Department of Neurogenetics, Max-Planck-Institute of Experimental Medicine, D-37075 Goettingen, Germany

Address correspondence to I.R. Griffiths, Applied Neurobiology Group, Department of Veterinary Clinical Studies, University of Glasgow, Bearsden, Glasgow G61 1QH, Scotland. Tel.: 44-141-330-5806. Fax: 44-141-942-7215. E-mail: i.griffiths{at}vet.gla.ac.uk

Mutations in the X-linked Plp gene lead to dysmyelinating phenotypes and oligodendrocyte cell death. Here, we exploit the X inactivation phenomenon to show that a hierarchy exists in the influence of different mutant Plp alleles on oligodendrocyte survival. We used compound heterozygote mice to study the long-term fate of oligodendrocytes expressing either the jimpy or rumpshaker allele against a background of cells expressing a Plp-null allele. Although mutant and null oligodendrocytes were generated in equal numbers, the proportion expressing the mutant allele subsequently declined, but whereas those expressing the rumpshaker allele formed a reduced but stable population, the number of jimpy cells fell progressively. The age of decline in the jimpy cells in different regions of the CNS correlated with the temporal sequence of myelination. In compound heterozygotes expressing rumpshaker and jimpy alleles, oligodendrocytes expressing the former predominated and were more abundant than when the rumpshaker and null alleles were in competition. Thus, oligodendrocyte survival is not determined solely by cell intrinsic factors, such as the conformation of the misfolded PLP, but is influenced by neighboring cells, possibly competing for cell survival factors.

Key Words: myelin protein; mutation; oligodendrocyte; proteolipid protein; heterozygote

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