Lara M. Taubner scite author profile

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.

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Parallel In-register Intermolecular β-Sheet Architectures for Prion-seeded Prion Protein (PrP) Amyloids

Groveman

Dolan

Taubner

et al. 2014

Journal of Biological Chemistry

156

208

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Background:The structures of infectious mammalian prions remain unclear. Results: Based in part on NMR data, we developed models with single PrP molecules spanning the entire cross-section of prion fibrils. Conclusion: These models are consistent with many empirical features of prion amyloids. Significance: We provide a new basis for conceptualizing and experimentally evaluating the structures and propagation of infectious prions.

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3-O-Desacyl Monophosphoryl Lipid A Derivatives: Synthesis and Immunostimulant Activities

Johnson¹,

Keegan²,

Sowell³

et al. 1999

J. Med. Chem.

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The synthesis of a series of novel analogues of lipid A, the active principle of lipopolysaccharide, is reported. In these compounds, the 1-O-phosphono and (R)-3-hydroxytetradecanoyl moieties of native Salmonella minnesota R595 lipid A have been replaced with hydrogen and the length of the normal fatty acyl residues has been systematically varied. Normal fatty acid chain length in the 3-O-desacyl monophosphoryl lipid A (MLA) series is shown to be a critical determinant of iNOS gene expression in activated mouse macrophages and the induction of proinflammatory cytokines in human peripheral monocytes. Examination of pyrogenicity in rabbits and lethal toxicity in D-galactosamine-treated mice shows that toxic effects in the MLA series can be ameliorated by modifying fatty acid chain length. When used as an adjuvant for tetanus toxoid vaccines, certain MLA derivatives enhance the production of tetanus toxoid-specific antibodies in mice.

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Hemin Interactions and Alterations of the Subcellular Localization of Prion Protein

Lee

Raymond

Schoen

et al. 2007

Journal of Biological Chemistry

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Hemin (iron protoporphyrin IX) is a crucial component of many physiological processes acting either as a prosthetic group or as an intracellular messenger. Some unnatural, synthetic porphyrins have potent anti-scrapie activity and can interact with normal prion protein (PrP C ). These observations raised the possibility that hemin, as a natural porphyrin, is a physiological ligand for PrP C . Accordingly, we evaluated PrP C interactions with hemin. When hemin (3-10 M) was added to the medium of cultured cells, clusters of PrP C formed on the cell surface, and the detergent solubility of PrP C decreased. The addition of hemin also induced PrP C internalization and turnover. The ability of hemin to bind directly to PrP C was demonstrated by hemin-agarose affinity chromatography and UV-visible spectroscopy. Multiple hemin molecules bound primarily to the N-terminal third of PrP C , with reduced binding to PrP C lacking residues 34 -94. These hemin-PrP C interactions suggest that PrP C may participate in hemin homeostasis, sensing, and/or uptake and that hemin might affect PrP C functions.

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Lara M. Taubner

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

Parallel In-register Intermolecular β-Sheet Architectures for Prion-seeded Prion Protein (PrP) Amyloids

3-O-Desacyl Monophosphoryl Lipid A Derivatives: Synthesis and Immunostimulant Activities

Hemin Interactions and Alterations of the Subcellular Localization of Prion Protein

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