Rapid End-Point Quantitation of Prion Seeding Activity with Sensitivity Comparable to Bioassays

Andrew Timmes; B Caughey; B Caughey; B Caughey; B Chen; Brent Race; BW Caughey; Byron Caughey; C Lacroux; CD Orru; Christina D. Orrú; CK Mathiason; DA Kocisko; David Westaway; DC Gadjusek; DR Borchelt; DW Colby; DW Colby; EE Manuelidis; GD Hunter; GJ Raymond; GP Saborio; H LeVine III; J Castilla; Jason M. Wilham; JG Safar; JI Kim; JR Silveira; JT Jarrett; JT Stamp; K-M Pan; Kazunori Sano; Kimberly D. Meade-White; L Gregori; L Gregori; L Gregori; L Thorne; LA Terry; Lara M. Taubner; LJ Reed; LW Xiong; M Czub; M Horiuchi; M Vascellari; MA Callahan; NR Deleault; P Brown; P Saa; P Saa; PC Klohn; R Atarashi; R Atarashi; RA Bessen; Richard A. Bessen; RM Dougherty; Ryuichiro Atarashi; SB Prusiner; T Konold; Y Murayama

Rapid End-Point Quantitation of Prion Seeding Activity with Sensitivity Comparable to Bioassays

Abstract

A major problem for the effective diagnosis and management of prion diseases is the lack of rapid high-throughput assays to measure low levels of prions. Such measurements have typically required prolonged bioassays in animals. Highly sensitive, but generally non-quantitative, prion detection methods have been developed based on prions' ability to seed the conversion of normally soluble protease-sensitive forms of prion protein to protease-resistant and/or amyloid fibrillar forms. Here we describe an approach for estimating the relative amount of prions using a new prion seeding assay called real-time quaking induced conversion assay (RT-QuIC). The underlying reaction blends aspects of the previously described quaking-induced conversion (QuIC) and amyloid seeding assay (ASA) methods and involves prion-seeded conversion of the alpha helix-rich form of bacterially expressed recombinant PrPC to a beta sheet-rich amyloid fibrillar form. The RT-QuIC is as sensitive as the animal bioassay, but can be accomplished in 2 days or less. Analogous to end-point dilution animal bioassays, this approach involves testing of serial dilutions of samples and statistically estimating the seeding dose (SD) giving positive responses in 50% of replicate reactions (SD50). Brain tissue from 263K scrapie-affected hamsters gave SD50 values of 1011-1012/g, making the RT-QuIC similar in sensitivity to end-point dilution bioassays. Analysis of bioassay-positive nasal lavages from hamsters affected with transmissible mink encephalopathy gave SD50 values of 103.5–105.7/ml, showing that nasal cavities release substantial prion infectivity that can be rapidly detected. Cerebral spinal fluid from 263K scrapie-affected hamsters contained prion SD50 values of 102.0–102.9/ml. RT-QuIC assay also discriminated deer chronic wasting disease and sheep scrapie brain samples from normal control samples. In principle, end-point dilution quantitation can be applied to many types of prion and amyloid seeding assays. End point dilution RT-QuIC provides a sensitive, rapid, quantitative, and high throughput assay of prion seeding activity