The concept that prions are novel pathogens which are different from both viroids and viruses has received increasing support from many avenues of investigation over the past decade. Enriching fractions from Syrian hamster (SHa) brain for scrapie prion infectivity led to the discovery of the prion protein (PrP). Prion diseases of animals include scrapie and “mad cow” disease; those of humans present as inherited, sporadic and infectious neurodegenerative disorders, two of which are called Creutzfeldt‐Jakob disease (CJD) and Gerstmann‐Sträussler‐Scheinker disease (GSS). The inherited human prion diseases are genetically linked to mutations in the PrP gene that result in non‐conservative amino acid substitutions. Transgenic (Tg) mice expressing PrP carrying a GSS mutation developed neurodegeneration spontaneously and produced prions de novo. In other studies, Tg mice expressing both SHa and mouse (Mo) PrP genes were used to demonstrate that the “species barrier” for scrapie prions resides in the primary structure of PrP. This concept was strengthened by the results of studies in which mice expressing chimeric Mo/human (Hu) PrP transgenes were constructed which differ from MoPrP by nine amino acids between residues 96 and 167. All of the Tg(MHu2M) mice developed neurologic disease ∼200 days after inoculation with brain homogenate from three patients who died of CJD. About 10 of Tg(HuPrP) mice expressing HuPrP and non‐Tg mice developed neurologic disease>500 days after inoculation with CJD prions. The different susceptibilities of Tg(HuPrP) and Tg(MHu2M) mice to human prions indicate that additional species specific factors such as chaperone proteins are involved in prion replication. Diagnosis, prevention and treatment of human prion diseases should be facilitated by study of Tg(MHu2M) mice. Our findings and those from other studies suggest that mutant and wtPrP interact, perhaps through a chaperone‐like protein, during the pathogenesis
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