Abstract
Prion diseases are infectious neurodegenerative disorders of humans and animals caused by misfolded forms of the cellular prion protein PrPC. Prions cause disease by converting PrPC into aggregation-prone PrPSc. Chronic wasting disease (CWD) is the most contagious prion disease with substantial lateral transmission, affecting free-ranging and farmed cervids. Although the PrP primary structure is highly conserved among cervids, the disease phenotype can be modulated by species-specific polymorphisms in the prion protein gene. How the resulting amino-acid substitutions impact PrPC and PrPSc structure and propagation is poorly understood. We investigated the effects of the cervid 116A>G substitution, located in the most conserved PrP domain, on PrPC structure and conversion and on 116AG-prion conformation and infectivity. Molecular dynamics simulations revealed structural de-stabilization of 116G-PrP, which enhanced its in vitro conversion efficiency when used as recombinant PrP substrate in real-time quaking-induced conversion (RT-QuIC). We demonstrate that 116AG-prions are conformationally less stable, show lower activity as a seed in RT-QuIC and exhibit reduced infectivity in vitro and in vivo. Infectivity of 116AG-prions was significantly enhanced upon secondary passage in mice, yet conformational features were retained. These findings indicate that structurally de-stabilized PrPC is readily convertible by cervid prions of different genetic background and results in a prion conformation adaptable to cervid wild-type PrP. Conformation is an important criterion when assessing transmission barrier, and conformational variants can target a different host range. Therefore, a thorough analysis of CWD isolates and re-assessment of species-barriers is important in order to fully exclude a zoonotic potential of CWD.
Highlights
Prion diseases are fatal neurodegenerative disorders including Creutzfeldt-Jakob disease in humans, bovine spongiform encephalopathy in cattle, scrapie in sheep and goats and chronic wasting disease (CWD) in cervids [1, 2].According to the “protein only” hypothesis, prions are mainly, if not solely, composed of PrPSc [3], a misfolded isoform of the host-encoded prion protein, PrPC
Prion diseases are infectious neurodegenerative disorders, and the causative agent consists of abnormally folded prion protein termed PrPSc
We use in vitro and in vivo techniques to analyze the effect of a polymorphism at codon 116 (A>G) of the white-tailed deer prion protein on Chronic wasting disease (CWD) prion conformation, propagation and pathogenesis
Summary
Prion diseases are fatal neurodegenerative disorders including Creutzfeldt-Jakob disease in humans, bovine spongiform encephalopathy in cattle, scrapie in sheep and goats and chronic wasting disease (CWD) in cervids [1, 2].According to the “protein only” hypothesis, prions are mainly, if not solely, composed of PrPSc [3], a misfolded isoform of the host-encoded prion protein, PrPC. PrPSc results from the conversion of PrPC into a conformation enriched in β-sheets [4,5,6] which can act as a seed to bind and convert other PrPC molecules. These are incorporated into a growing polymer [7, 8] which breaks into smaller oligomers, resulting in higher numbers of infectious nuclei. Prion strains can be differentiated by incubation time, clinical signs of the disease and biochemical properties such as conformational stability of PrPSc within one host species [12,13,14]
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