The effect of the shiverer mutation on myelin basic protein expression in homozygous and heterozygous mouse brain.

We report (a) that the shiverer mutation has pleiotropic phenotypic effects on myelin basic protein expression in the CNS of homozygous (shi/shi) mice and (b) that each of the effects of the shiverer allele is expressed co-dominantly with the wild-type allele in heterozygous (+/shi) animals. First, the total amount of myelin basic protein, as determined by radioimmunoassay, that accumulates in the CNS is approximately 0.1% of the wild-type amount in shi/shi animals and approximately 50% in +/shi animals. Second, the four major forms of myelin basic protein, with molecular weights of 21,500, 18,500, 17,000, and 14,000, that are present in wild-type mouse CNS are undetectable in either whole brain or purified myelin of shi/shi animals, and each of the four proteins is reduced commensurately in brain and myelin of +/shi animals. Third, the small amount of myelin basic protein-related material that does accumulate in the shi/shi brain consists of several polypeptides, with molecular weights ranging from 25,000 to 100,000, the pattern of which is different from that found in wild-type brain. The pattern of myelin basic protein-related polypeptides in +/shi brain is a composite of the wild type and the shiverer mutant. Fourth, messenger RNA from shi/shi brain, when translated in vitro, encodes a set of myelin basic protein-related polypeptides qualitatively similar to that encoded by wild-type messenger RNA, except that the 18,500 and 14,000 translation products are greatly reduced, while other myelin basic protein-related translation products are spared. The pattern of myelin basic protein-related translation products for +/shi messenger RNA is intermediate between the patterns for +/+ and shi/shi messenger RNAs. The results suggest that the genetic lesion in the shiverer mutation impinges on the structural gene (or genes) encoding myelin basic protein or on a cis-acting regulatory element controlling that gene (or genes).