Stefania Thorgeirsdottir scite author profile

The association between scrapie and polymorphism of the prion protein (PrP) gene was studied in the Icelandic sheep breed. Polymorphism of the three codons, 136, 154 and 171, that are important for scrapie susceptibility was determined. A BspHI restriction analysis was used to study the alleles of codons 136 and 154, while density gradient gel electrophoresis (DGGE) was used to analyse codon 171 and detect new polymorphisms. The PrP allelic variant, VRQ (amino acids at codons 136, 154 and 171), was found to be highly statistically associated with scrapie, whereas the allelic variant, AHQ, was never found in scrapie-affected animals, a finding that is statistically significant. Iceland has a few scrapie-free regions, which are a part of a quarantine network. Homozygotes for the VRQ variant were found there at a low frequency, indicating that genetic susceptibility is not enough for scrapie to develop and further evidence for the infectious nature of the disease. A comparison of PrP genotypes between sheep outside and within the scrapie-free zones revealed an increase in the AHQ allelic variant in the latter. No polymorphism was found at codon 171 in a total of 932 sheep studied, all individuals having the glutamine allele. Two novel, rare PrP alleles were found using DGGE at codons 138 and 151, i.e. S138N and R151C. Their relevance to scrapie is still unclear, but the former was found in scrapie-affected sheep as well as healthy sheep, whereas the latter was only found in healthy sheep.

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The prevalence of atypical scrapie in sheep from positive flocks is not higher than in the general sheep population in 11 European countries

Fediaevsky¹,

Maurella

Nöremark

et al. 2010

BMC Vet Res

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BackgroundDuring the last decade, active surveillance for transmissible spongiform encephalopathies in small ruminants has been intensive in Europe. In many countries this has led to the detection of cases of atypical scrapie which, unlike classical scrapie, might not be contagious. EU legislation requires, that following detection of a scrapie case, control measures including further testing take place in affected flocks, including the culling of genotype susceptible to classical scrapie. This might result in the detection of additional cases. The aim of this study was to investigate the occurrence of additional cases in flocks affected by atypical scrapie using surveillance data collected in Europe in order to ascertain whether atypical scrapie, is contagious.ResultsQuestionnaires were used to collect, at national level, the results of active surveillance and testing associated with flock outbreaks in 12 European countries. The mean prevalence of atypical scrapie was 5.5 (5.0-6.0) cases per ten thousand in abattoir surveillance and 8.1 (7.3-9.0) cases per ten thousand in fallen stock. By using meta-analysis, on 11 out of the 12 countries, we found that the probability of detecting additional cases of atypical scrapie in positive flocks was similar to the probability observed in animals slaughtered for human consumption (odds ratio, OR = 1.07, CI95%: 0.70-1.63) or among fallen stock (OR = 0.78, CI95%: 0.51-1.2). In contrast, when comparing the two scrapie types, the probability of detecting additional cases in classical scrapie positive flocks was significantly higher than the probability of detecting additional cases in atypical scrapie positive flocks (OR = 32.4, CI95%: 20.7-50.7).ConclusionsThese results suggest that atypical scrapie is not contagious or has a very low transmissibility under natural conditions compared with classical scrapie. Furthermore this study stressed the importance of standardised data collection to make good use of the analyses undertaken by European countries in their efforts to control atypical and classical scrapie.

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Search for healthy carriers of scrapie: an assessment of subclinical infection of sheep in an Icelandic scrapie flock by three diagnostic methods and correlation with PrP genotypes

Thorgeirsdottir

Georgsson

Reynisson

et al. 2002

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Subclinical infection in scrapie of sheep, characterized by a long incubation period, may be of importance for the spread of the disease. We screened brain samples from all 65 sheep in a scrapie-affected flock for subclinical infection and correlated with results of PrP genotyping, which is of relevance for the epidemiology and the question, whether by breeding for resistant genotypes one would be breeding for healthy carriers. The sensitivity of three methods was compared, i.e. histopathological examination for vacuoles (HP), immunohistochemical staining (IHC) and Western blotting (WB) for PrP(Sc). Five sheep showed definite clinical signs and histological scrapie lesions, and signs of infection were detected in 25 of 60 asymptomatic sheep, by HP and/or IHC and WB. The IHC was slightly more sensitive than HP and WB. Sheep with subclinical infection were, with one exception, either homo- or heterozygotes for 136-V, as were four of the five sheep with clinical scrapie. The incidence of the VRQ allelic variant in the flock was unusually high compared to the Icelandic sheep population probably contributing to the high prevalence of both clinical and subclinical infection in the flock. Neither sheep with definite scrapie nor detectable subclinical infection, were of the resistant AHQ genotype, indicating that Icelandic AHQ sheep are not healthy carriers of scrapie infection.

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High incidence of subclinical infection of lymphoid tissues in scrapie-affected sheep flocks

et al. 2008

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Prion diseases are characterized by a long incubation period. In scrapie, sheep may incubate and spread the infection for several years before clinical signs evolve. We have previously studied the occurrence of subclinical infection in the brain. Now, we have studied the occurrence of subclinical infection in the brain and several lymphoid tissues in two scrapie-affected Icelandic sheep flocks by immunohistochemistry for PrP(Sc), a molecular marker for infectivity, and correlated this with results of PrP genotyping. At culling, one flock had one confirmed scrapie case, while the other flock had two. Analysis of 106 asymptomatic sheep by immunostaining for PrP(Sc) revealed that the incidence of subclinical infection was 58.3% in one flock and 42.5% in the other. PrP(Sc) was only detected in lymphoid tissues. The youngest positive sheep were 4 months old. PrP genotyping showed that over 90% of the sheep were of a genotype which is moderately sensitive to infection and may delay neuroinvasion. Our results show that asymptomatic sheep may spread the infection during the long incubation period of several years, which constitutes an important obstacle in the eradication of scrapie. Our findings indicate that contamination of the environment plays an important part in sustaining the infection.

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R-(+)-perillyl alcohol-induced cell cycle changes, altered actin cytoskeleton, and decreased ras and p34cdc2 expression in colonic adenocarcinoma SW480 cells

Cerda¹,

Wilkinson

Thorgeirsdottir

et al. 1999

The Journal of Nutritional Biochemistry

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