Inoculation of scrapie with the self-assembling RADA-peptide disrupts prion accumulation and extends hamster survival.

Intracerebral inoculation of 263K Scrapie brain homogenate (PrPsc) with a self-assembling RADA-peptide (RADA) significantly delayed disease onset and increased hamster survival. Time of survival was dependent on the dose of RADA and pre-incubation with PrPsc prior to inoculation. RADA treatment resu...

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Main Authors: Robert Hnasko, Cathrin E Bruederle
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2009-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC2636877?pdf=render
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spelling doaj-7bad5c564d6a4eb796ab5e1aa8a4b7142020-11-25T00:55:55ZengPublic Library of Science (PLoS)PLoS ONE1932-62032009-01-0142e444010.1371/journal.pone.0004440Inoculation of scrapie with the self-assembling RADA-peptide disrupts prion accumulation and extends hamster survival.Robert HnaskoCathrin E BruederleIntracerebral inoculation of 263K Scrapie brain homogenate (PrPsc) with a self-assembling RADA-peptide (RADA) significantly delayed disease onset and increased hamster survival. Time of survival was dependent on the dose of RADA and pre-incubation with PrPsc prior to inoculation. RADA treatment resulted in the absence of detectable PrPsc at 40 d followed by an increased rate of PrPsc accumulation at 75 d up to sacrifice. In all PrPsc inoculated animals, clinical symptoms were observed approximately 10 d prior to sacrifice and brains showed spongiform degeneration with Congo red positive plaques. A time-dependent increase in reactive gliosis was observed in both groups with more GFAP detected in RADA treated animals at all time points. The PrP protein showed dose-dependent binding to RADA and this binding was competitively inhibited by Congo Red. We conclude that RADA disrupts the efficacy of prion transmission by altering the rate of PrPsc accumulation. This is the first demonstration that a self-assembling biomolecular peptide can interact with PrPsc, disrupt the course of Scrapie disease process, and extend survival.http://europepmc.org/articles/PMC2636877?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Robert Hnasko
Cathrin E Bruederle
spellingShingle Robert Hnasko
Cathrin E Bruederle
Inoculation of scrapie with the self-assembling RADA-peptide disrupts prion accumulation and extends hamster survival.
PLoS ONE
author_facet Robert Hnasko
Cathrin E Bruederle
author_sort Robert Hnasko
title Inoculation of scrapie with the self-assembling RADA-peptide disrupts prion accumulation and extends hamster survival.
title_short Inoculation of scrapie with the self-assembling RADA-peptide disrupts prion accumulation and extends hamster survival.
title_full Inoculation of scrapie with the self-assembling RADA-peptide disrupts prion accumulation and extends hamster survival.
title_fullStr Inoculation of scrapie with the self-assembling RADA-peptide disrupts prion accumulation and extends hamster survival.
title_full_unstemmed Inoculation of scrapie with the self-assembling RADA-peptide disrupts prion accumulation and extends hamster survival.
title_sort inoculation of scrapie with the self-assembling rada-peptide disrupts prion accumulation and extends hamster survival.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2009-01-01
description Intracerebral inoculation of 263K Scrapie brain homogenate (PrPsc) with a self-assembling RADA-peptide (RADA) significantly delayed disease onset and increased hamster survival. Time of survival was dependent on the dose of RADA and pre-incubation with PrPsc prior to inoculation. RADA treatment resulted in the absence of detectable PrPsc at 40 d followed by an increased rate of PrPsc accumulation at 75 d up to sacrifice. In all PrPsc inoculated animals, clinical symptoms were observed approximately 10 d prior to sacrifice and brains showed spongiform degeneration with Congo red positive plaques. A time-dependent increase in reactive gliosis was observed in both groups with more GFAP detected in RADA treated animals at all time points. The PrP protein showed dose-dependent binding to RADA and this binding was competitively inhibited by Congo Red. We conclude that RADA disrupts the efficacy of prion transmission by altering the rate of PrPsc accumulation. This is the first demonstration that a self-assembling biomolecular peptide can interact with PrPsc, disrupt the course of Scrapie disease process, and extend survival.
url http://europepmc.org/articles/PMC2636877?pdf=render
work_keys_str_mv AT roberthnasko inoculationofscrapiewiththeselfassemblingradapeptidedisruptsprionaccumulationandextendshamstersurvival
AT cathrinebruederle inoculationofscrapiewiththeselfassemblingradapeptidedisruptsprionaccumulationandextendshamstersurvival
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