Genetic Control of Prion Incubation Period in Mice

Abstract

The prion gene complex (Prn) is located on mouse chromosome 2 between the beta-2-microglobulin (B2m) and agouti (A) genes. Within this complex are the prion protein gene (Prn-p), which encodes the only identified macromolecule (PrP) that purifies with infectious scrapie agent, and a scrapie incubation time gene (Prn-i). Using a variety of restriction endonucleases, six allelic forms of the Prn-p gene have been distinguished by their patterns of restriction fragment length polymorphisms. We had previously shown that the exceptionally long scrapie incubation period of I/LnJ mice inoculated with the Chandler isolate (over 200 days) was due to the effects of a scrapie incubation time gene tightly linked to Prn-p. So far, this long scrapie incubation time allele has been found only in those inbred mouse strains (I/LnJ, P/J and IM) that have the b allele of Prn-p. It is not known whether the incubation time gene and prion protein gene are two distinct loci or are one and the same. Putative recombinants between the incubation time phenotype and Prn-p genotype have been observed, but this could be due to effects of other genes segregating in the population. Regardless of whether or not the incubation time and PrP genes are identical, if any differences were found in the amino acid sequences of PrP encoded by the different Prn-p alleles there would be important implications for interpretation of results on 'strains' of scrapie agent. It would not be necessary to invoke nucleic acid as the informational macromolecule of the scrapie agent because differences in prion 'strains' recovered from mice with different Prn-p genotypes need not be the result of host selection but could be due to differences in host-encoded PrP.