Prion Infectivity Plateaus and Conversion to Symptomatic Disease Originate from Falling Precursor Levels and Increased Levels of Oligomeric PrPSc Species

Prion Infectivity Plateaus and Conversion to Symptomatic Disease Originate from Falling Precursor Levels and Increased Levels of Oligomeric PrPSc Species

In lethal prion neurodegenerative diseases, misfolded prion proteins (PrP(Sc)) replicate by redirecting the folding of the cellular prion glycoprotein (PrP(C)). Infections of different durations can have a subclinical phase with constant levels of infectious particles, but the mechanisms underlying...

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Veröffentlicht in:Journal of virology 2015-12, Vol.89 (24), p.12418-12426
Hauptverfasser: Mays, Charles E, van der Merwe, Jacques, Kim, Chae, Haldiman, Tracy, McKenzie, Debbie, Safar, Jiri G, Westaway, David
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Animals
Brain - metabolism
Brain - pathology
Mice
Mice, Transgenic
Prion Diseases - genetics
Prion Diseases - metabolism
Prion Diseases - pathology
Prions
Protein Folding
Protein Multimerization
PrPSc Proteins - genetics
PrPSc Proteins - metabolism
Spotlight
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container_end_page 12426
container_issue 24
container_start_page 12418
container_title Journal of virology
container_volume 89
creator Mays, Charles E
van der Merwe, Jacques
Kim, Chae
Haldiman, Tracy
McKenzie, Debbie
Safar, Jiri G
Westaway, David
description In lethal prion neurodegenerative diseases, misfolded prion proteins (PrP(Sc)) replicate by redirecting the folding of the cellular prion glycoprotein (PrP(C)). Infections of different durations can have a subclinical phase with constant levels of infectious particles, but the mechanisms underlying this plateau and a subsequent exit to overt clinical disease are unknown. Using tandem biophysical techniques, we show that attenuated accumulation of infectious particles in presymptomatic disease is preceded by a progressive fall in PrP(C) level, which constricts replication rate and thereby causes the plateau effect. Furthermore, disease symptoms occurred at the threshold associated with increasing levels of small, relatively less protease-resistant oligomeric prion particles (oPrP(Sc)). Although a hypothetical lethal isoform of PrP cannot be excluded, our data argue that diminishing residual PrP(C) levels and continuously increasing levels of oPrP(Sc) are crucial determinants in the transition from presymptomatic to symptomatic prion disease. Prions are infectious agents that cause lethal brain diseases; they arise from misfolding of a cell surface protein, PrP(C) to a form called PrP(Sc). Prion infections can have long latencies even though there is no protective immune response. Accumulation of infectious prion particles has been suggested to always reach the same plateau in the brain during latent periods, with clinical disease only occurring when hypothetical toxic forms (called PrP(L) or TPrP) begin to accumulate. We show here that infectivity plateaus arise because PrP(C) precursor levels become downregulated and that the duration of latent periods can be accounted for by the level of residual PrP(C), which transduces a toxic effect, along with the amount of oligomeric forms of PrP(Sc).
doi_str_mv 10.1128/JVI.02142-15
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subjects Animals
Brain - metabolism
Brain - pathology
Mice
Mice, Transgenic
Prion Diseases - genetics
Prion Diseases - metabolism
Prion Diseases - pathology
Prions
Protein Folding
Protein Multimerization
PrPSc Proteins - genetics
PrPSc Proteins - metabolism
Spotlight
title Prion Infectivity Plateaus and Conversion to Symptomatic Disease Originate from Falling Precursor Levels and Increased Levels of Oligomeric PrPSc Species
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