Transmissible spongiform encephalopathies (TSEs) are a group of neurodegenerative diseases affecting a wide variety of mammals including sheep and goats (scrapie), cervid spp. (chronic wasting disease), and humans (Creutzfeldt-Jakob disease). Our studies are focused on the prion protein (PrP) due to the critical role of this protein in controlling many aspects of TSE pathogenesis such as susceptibility to disease and interspecies transmission. A central event in TSE disease involves the conversion of the normal host cellular prion protein (PrPC) to a partially protease-resistant, aggregated, disease-associated isoform (PrPSc). TSE-induced pathology is usually associated with PrP-res deposition, but the mechanism of neurodegeneration is not understood. The nature of the infectious agent, called a prion, remains uncertain but is thought to be composed primarily of misfolded PrP, perhaps in complex with another host accessory molecule(s). PrPC is a glycosylphosphatidylinositol (GPI)-anchored glycoprotein, and the majority of PrPSc produced in vivo contains this GPI anchor. Membrane association of both normal and disease-associated PrP isoforms may influence many features of prion disease and PrPC function. Our work is focused on elucidating mechanisms of uptake, replication, and spread of prions, in addition to determining the biochemical composition of mammalian prions. In 2009, we have: 1) continued our characterization of how PrPSc is internalized and trafficked in neuronal cells by live cell imaging;2) developed new methods to specifically tag PrPC molecules to visualize their trafficking in uninfected cells and during the course of scrapie infection;3) applied these new methods to reveal new insights into the differential mechanisms of action of anti-TSE compounds and trafficking pathways of PrPSc and PrPC;4) created new compounds for protein labeling that allow analysis by a variety of detection methods;and 5) developed new cell culture models expressing various PrPC mutant proteins. These efforts led to two publications in 2009.

Project Start
Project End
Budget Start
Budget End
Support Year
4
Fiscal Year
2009
Total Cost
$502,699
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Hollister, Jason R; Lee, Kil Sun; Dorward, David W et al. (2015) Efficient uptake and dissemination of scrapie prion protein by astrocytes and fibroblasts from adult hamster brain. PLoS One 10:e0115351
Yamasaki, Takeshi; Baron, Gerald S; Suzuki, Akio et al. (2014) Characterization of intracellular dynamics of inoculated PrP-res and newly generated PrP(Sc) during early stage prion infection in Neuro2a cells. Virology 450-451:324-35
Taguchi, Yuzuru; Hohsfield, Lindsay A; Hollister, Jason R et al. (2013) Effects of FlAsH/tetracysteine (TC) Tag on PrP proteolysis and PrPres formation by TC-scanning. Chembiochem 14:1597-610, 1510
Vascellari, Sarah; Orru, Christina D; Hughson, Andrew G et al. (2012) Prion seeding activities of mouse scrapie strains with divergent PrPSc protease sensitivities and amyloid plaque content using RT-QuIC and eQuIC. PLoS One 7:e48969
Raymond, Gregory J; Race, Brent; Hollister, Jason R et al. (2012) Isolation of novel synthetic prion strains by amplification in transgenic mice coexpressing wild-type and anchorless prion proteins. J Virol 86:11763-78
Prado, Marco A M; Baron, Gerald (2012) Seeding plaques in Alzheimer's disease. J Neurochem 120:641-3
Baron, Gerald S; Hughson, Andrew G; Raymond, Gregory J et al. (2011) Effect of glycans and the glycophosphatidylinositol anchor on strain dependent conformations of scrapie prion protein: improved purifications and infrared spectra. Biochemistry 50:4479-90
Smirnovas, Vytautas; Baron, Gerald S; Offerdahl, Danielle K et al. (2011) Structural organization of brain-derived mammalian prions examined by hydrogen-deuterium exchange. Nat Struct Mol Biol 18:504-6
Caughey, Byron; Baron, Gerald S; Chesebro, Bruce et al. (2009) Getting a grip on prions: oligomers, amyloids, and pathological membrane interactions. Annu Rev Biochem 78:177-204
Taguchi, Yuzuru; Shi, Zhen-Dan; Ruddy, Brian et al. (2009) Specific biarsenical labeling of cell surface proteins allows fluorescent- and biotin-tagging of amyloid precursor protein and prion proteins. Mol Biol Cell 20:233-44

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