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  • Title: Prion Diseases in Animals and Zoonotic Potential.
    Author: Torres JM, Marin-Moreno A, Andreoletti O, Espinosa JC, Beringue V, Aguilar P, Fernandez-Borges N.
    Journal: Food Saf (Tokyo); 2016 Dec; 4(4):105-109. PubMed ID: 32231913.
    Abstract:
    Dietary exposure to Bovine Spongiform Encephalopathy (BSE) contaminated bovine tissues is considered as the origin of variant Creutzfeldt-Jakob disease (vCJD) in humans. To date, BSE agent is the only recognized zoonotic prion. Despite the variety of transmissible spongiform encephalopathy (TSE) agents that have been circulating for centuries in farmed ruminants, there is no apparent epidemiological link between exposure to ruminant products and the occurrence of other form of TSE in human like sporadic Creutzfeldt-Jakob disease (sCJD). However, the zoonotic potential of the diversity of circulating TSE agents has never been systematically assessed. The major issue in experimental assessment of TSEs zoonotic potential lies in the modelling of the "species barrier," the biological phenomenon that limits TSE agents' propagation from one species to another. In the past decade, mice genetically engineered to express normal forms of the human prion protein have proven to be essential in studying human prions pathogenesis and modelling the capacity of TSEs to cross the human species barrier. To assess the zoonotic potential of prions circulating in farmed ruminants, we study their transmission ability in transgenic mice expressing human PrPC (HuPrP-Tg). Two lines of mice expressing different forms of the human PrPC (129Met or 129Val) are used to determine the role of the Met129Val dimorphism in susceptibility/resistance to the different agents. These transmission experiments confirm the ability of BSE prions to propagate in 129M-HuPrP-Tg mice and demonstrate that Met129 homozygotes may be susceptible to BSE in sheep or goats to a greater degree than the BSE agent in cattle, and that these agents can convey molecular properties and be neuropathologically indistinguishable from vCJD. However, homozygous 129V mice are resistant to all tested BSE derived prions independently of the originating species, suggesting a higher transmission barrier for 129V-PrP variant. Transmission data also revealed that several scrapie prions propagate in HuPrP-Tg mice with efficiency comparable to that of cattle BSE. While the efficiency of transmission at primary passage was low, subsequent passages resulted in a highly virulent prion disease in both Met129 and Val129 mice. Transmission of the different scrapie isolates in these mice leads to the emergence of prion strain phenotypes that showed similar characteristics to those displayed by MM1 or VV2 sCJD prion. These results demonstrate that scrapie prions have a zoonotic potential and raise new questions about the possible link between animal and human prions.
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