Human prion protein sequence elements impede cross-species chronic wasting disease transmission
Timothy D. Kurt, … , Qingzhong Kong, Christina J. Sigurdson
Timothy D. Kurt, … , Qingzhong Kong, Christina J. Sigurdson
Published February 23, 2015
Citation Information: J Clin Invest. 2015;125(4):1485-1496. https://doi.org/10.1172/JCI79408.
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Research Article Infectious disease Neuroscience

Human prion protein sequence elements impede cross-species chronic wasting disease transmission

Abstract

Chronic wasting disease (CWD) is a fatal prion disease of North American deer and elk and poses an unclear risk for transmission to humans. Human exposure to CWD occurs through hunting activities and consumption of venison from prion-infected animals. Although the amino acid residues of the prion protein (PrP) that prevent or permit human CWD infection are unknown, NMR-based structural studies suggest that the β2-α2 loop (residues 165–175) may impact species barriers. Here we sought to define PrP sequence determinants that affect CWD transmission to humans. We engineered transgenic mice that express human PrP with four amino acid substitutions that result in expression of PrP with a β2-α2 loop (residues 165–175) that exactly matches that of elk PrP. Compared with transgenic mice expressing unaltered human PrP, mice expressing the human-elk chimeric PrP were highly susceptible to elk and deer CWD prions but were concurrently less susceptible to human Creutzfeldt-Jakob disease prions. A systematic in vitro survey of amino acid differences between humans and cervids identified two additional residues that impacted CWD conversion of human PrP. This work identifies amino acids that constitute a substantial structural barrier for CWD transmission to humans and helps illuminate the molecular requirements for cross-species prion transmission.

Authors

Timothy D. Kurt, Lin Jiang, Natalia Fernández-Borges, Cyrus Bett, Jun Liu, Tom Yang, Terry R. Spraker, Joaquín Castilla, David Eisenberg, Qingzhong Kong, Christina J. Sigurdson

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Figure 3

Tg(HuPrPelk166–174)-CWD prions display increased stability in chaotropes and resistance to enzyme degradation as compared with elk CWD.

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Tg(HuPrPelk166–174)-CWD prions display increased stability in chaotropes...
PrPSc stability as assessed by guanidine hydrochloride (GdnHCl) denaturation was significantly greater in Tg(HuPrPelk166–174) mice than in elk. (A) Western blots and (B) denaturation curves show a representative example from four independent experiments. (C) The bar graph shows the GdnHCl concentration at which half the PrP has been PK-digested ([GdnHCl]1/2) (n = 4 mice and 4 replicates of one elk); results are from four experiments (mean ± SEM). (D) PrPSc was separated from PrPC by size exclusion chromatography, then samples were split and either treated or not treated with PK and analyzed by Western blot. (E) Quantification of blots shows that significantly more PrPSc is PK resistant in Tg(HuPrPelk166–174) mice than in elk. (F) Brain homogenates from Tg(HuPrP) mice inoculated with sCJD prions show PK-resistant PrPSc by Western blot. (G) Brain homogenates from Tg(HuPrPelk166–174) mice inoculated with sCJD or CWD prions show different PK-resistant PrPSc migration patterns. **P < 0.01, 2-tailed, unpaired Student’s t test.