Prion disease is transmissible and invariably fatal. Chronic wasting disease (CWD) is the prion disease affecting deer, elk and moose, and it is a widespread and expanding epidemic affecting 22 US States and 2 Canadian provinces so far. CWD poses the most serious zoonotic prion transmission risks in North America because of huge venison consumption (>6 million deer/elk hunted and consumed annually in the USA alone), significant prion infectivity in muscles and other tissues/fluids from CWD-affected cervids, and usually high levels of individual exposure to CWD resulting from consumption of the affected animal among often just family and friends. However, we still do not know whether CWD prions can infect humans in the brain or peripheral tissues or whether clinical/asymptomatic CWD zoonosis has already occurred, and we have no essays to reliably detect CWD infection in humans. We hypothesize that: (1) The classic CWD prion strain can infect humans at low levels in the brain and peripheral lymphoid tissues; (2) The cervid-to-human transmission barrier is dependent on the cervid prion strain and influenced by the host (human) prion protein (PrP) primary sequence; (3) Reliable essays can be established to detect CWD infection in humans; and (4) CWD transmission to humans has already occurred. We will test these hypotheses in 4 Aims using transgenic (Tg) mouse models and complementary in vitro approaches.
Aim 1 will prove that the classical CWD strain may infect humans in brain or peripheral lymphoid tissues at low levels by conducting systemic bioassays in a set of humanized Tg mouse lines expressing common human PrP variants using a number of CWD isolates at varying doses and routes. Experimental human CWD samples will also be generated for Aim 3.
Aim 2 will test the hypothesis that the cervid-to-human prion transmission barrier is dependent on prion strain and influenced by the host (human) PrP sequence by examining and comparing the transmission efficiency and phenotypes of several atypical/unusual CWD isolates/strains as well as a few prion strains from other species that have adapted to cervid PrP sequence, utilizing the same panel of humanized Tg mouse lines as in Aim 1.
Aim 3 will establish reliable essays for detection and surveillance of CWD infection in humans by examining in details the clinical, pathological, biochemical and in vitro seeding properties of existing and future experimental human CWD samples generated from Aims 1-2 and compare them with those of common sporadic human Creutzfeldt-Jakob disease (sCJD) prions.
Aim 4 will attempt to detect clinical CWD-affected human cases by examining a significant number of brain samples from prion-affected human subjects in the USA and Canada who have consumed venison from CWD-endemic areas utilizing the criteria and essays established in Aim 3. The findings from this proposal will greatly advance our understandings on the potential and characteristics of cervid prion transmission in humans, establish reliable essays for CWD zoonosis and potentially discover the first case(s) of CWD infection in humans.

Public Health Relevance

There are significant and increasing human exposure to cervid prions because chronic wasting disease (CWD, a widespread and highly infectious prion disease among deer and elk in North America) continues spreading and consumption of venison remains popular, but our understanding on cervid-to-human prion transmission is still very limited, raising public health concerns. This proposal aims to define the zoonotic risks of cervid prions and set up and apply essays to detect CWD zoonosis using mouse models and in vitro methods. The findings will greatly expand our knowledge on the potentials and characteristics of cervid prion transmission in humans, establish reliable essays for such infections and may discover the first case(s) of CWD infection in humans.

Agency
National Institute of Health (NIH)
Institute
National Institute of Neurological Disorders and Stroke (NINDS)
Type
Research Project (R01)
Project #
5R01NS088604-03
Application #
9316729
Study Section
Cellular and Molecular Biology of Neurodegeneration Study Section (CMND)
Program Officer
Wong, May
Project Start
2015-09-30
Project End
2019-07-31
Budget Start
2017-08-01
Budget End
2018-07-31
Support Year
3
Fiscal Year
2017
Total Cost
Indirect Cost
Name
Case Western Reserve University
Department
Pathology
Type
Schools of Medicine
DUNS #
077758407
City
Cleveland
State
OH
Country
United States
Zip Code
44106
Ashok, Ajay; Karmakar, Shilpita; Chandel, Rajeev et al. (2018) Prion protein modulates iron transport in the anterior segment: Implications for ocular iron homeostasis and prion transmission. Exp Eye Res 175:1-13
Kim, Chae; Xiao, Xiangzhu; Chen, Shugui et al. (2018) Artificial strain of human prions created in vitro. Nat Commun 9:2166
Asthana, Abhishek; Baksi, Shounak; Ashok, Ajay et al. (2017) Prion protein facilitates retinal iron uptake and is cleaved at the ?-site: Implications for retinal iron homeostasis in prion disorders. Sci Rep 7:9600
Orrú, Christina D; Yuan, Jue; Appleby, Brian S et al. (2017) Prion seeding activity and infectivity in skin samples from patients with sporadic Creutzfeldt-Jakob disease. Sci Transl Med 9:
Elezgarai, Saioa R; Fernández-Borges, Natalia; Eraña, Hasier et al. (2017) Generation of a new infectious recombinant prion: a model to understand Gerstmann-Sträussler-Scheinker syndrome. Sci Rep 7:9584
Choi, Jin-Kyu; Cali, Ignazio; Surewicz, Krystyna et al. (2016) Amyloid fibrils from the N-terminal prion protein fragment are infectious. Proc Natl Acad Sci U S A 113:13851-13856
Zhan, Yi-An; Abskharon, Romany; Li, Yu et al. (2016) Quiescin-sulfhydryl oxidase inhibits prion formation in vitro. Aging (Albany NY) 8:3419-3429
Nichols, Tracy A; Spraker, Terry R; Gidlewski, Thomas et al. (2016) Dietary magnesium and copper affect survival time and neuroinflammation in chronic wasting disease. Prion 10:228-50