Natural scrapie in a closed flock of South Country Cheviot sheep has resulted in 45 deaths between 1986 and 1995. Of these cases, 35 sheep have been analysed for disease-linked PrP gene polymorphisms and all encode valine at codon 136 on at least one allele with 77% homozygous (VV136) and 23% valine/alanine heterozygotes (VA136). Mean survival time was 907 and 1482 days for VV136 and VA136 scrapie affected animals respectively. VV136 animals were all at great risk of disease if allowed to live long enough. However scrapie occurred only in a specific subgroup of VA136 sheep, survival advantage depending on VA136 animals being heterozygous for other polymorphisms at codons 154 or 171. The flock history has been recorded in great detail since its foundation in 1960 however there was no strong evidence for simple maternal or paternal transmission of disease other than inheritance of PrP genotype.
Transmissions of bovine spongiform encephalopathy (BSE) from seven unrelated cattle sources have given remarkably uniform disease characteristics in mice, differing from over twenty previous and contemporary transmissions of sheep and goat scrapie. Transmissions to mice of spongiform encephalopathy from six species (including sheep and goats) which have been experimentally or naturally infected with BSE have given similar results to direct BSE transmissions from cattle. Therefore the BSE agent has retained its identity when passaged through a range of species and the 'donor' species has little specific influence on disease characteristics in mice, adding to evidence for an agent-specific informational molecule. On transmission of BSE or scrapie to mice the incubation periods are long compared with subsequent mouse-to-mouse passages (the 'species barrier'). Contributing factors include a low efficiency of infection on interspecies transmission, the apparent failure of intracerebrally injected 'foreign' inoculum to establish infection directly in mouse brain and the selection of variant strains of agent which replicate most readily in the new host species.
This study has examined the distribution of PrP Sc in sheep by immunocytochemistry of tissues recovered from terminally affected animals following their experimental infection by the oral route with BSE. Despite a wide range of incubation period lengths, affected sheep showed a similar distribution of high levels of PrP Sc throughout the central nervous system. PrP Sc was also found in the lymphoid system, including parts of the digestive tract, and some components of the peripheral nervous system. These abundant PrP Sc deposits in sheep in regions outside the central nervous system are in direct contrast with cattle infected with BSE, which show barely detectable levels of PrP Sc in peripheral tissues. A number of genetically susceptible, challenged animals appear to have survived.
SynopsisThis is a report of clinical and epidemiological trends in parasuicide in Edinburgh and Oxford over the period 1976 to 1984. Rates of parasuicide declined in both cities, but more markedly among women than men. Male rates tended to be higher in Edinburgh and female rates higher in Oxford. Age-specific rates were similar for the two cities in 1983–84, with peak rates for females among 15–19 year olds and those for males among 20–24 year olds in Edinburgh and 25–34 year olds in Oxford. Parasuicide incidence was higher in lower social class groups and among the unemployed in both cities. During the study period there was a massive decline in barbiturate overdoses, a more modest decline in minor tranquillizer overdoses but, in Oxford, a marked increase in self-poisoning with paracetamol. By the end of the study period the proportion of patients receiving a diagnosis of drug addiction had doubled in Edinburgh, although it had remained fairly constant in Oxford. There were differences in patterns of aftercare offered to patients in the two cities; these almost certainly reflect differing clinical policies.
The gene Sip with two alleles, sA and pA, is the major gene determining the incubation period of scrapie in its natural host, sheep. Two lines of Cheviot sheep have been bred which differ in their response to experimental infection with SSBP/1 scrapie. The negative line have a decreased incidence of disease caused by SSBP/1 and are SippApA. The positive line have an increased incidence of disease and the majority are either SipsAsA or SipsApA; it is not possible to distinguish between the two genotypes on the basis of scrapie incubation time because the sA allele is fully dominant with SSBP/1 scrapie. There are also rare SippApA segregants in the positive line. The major protein (PrP) of scrapie-associated fibrils is encoded by a cellular gene and a cDNA copy of the hamster PrP mRNA has been used to analyse the restriction fragment length polymorphism of the two lines of Cheviot sheep. Two polymorphisms of the sheep PrP gene were found, by using HindIII and EcoRI, which appear to act as markers for the alleles of Sip. Using these polymorphisms it is now possible to assign a Sip genotype to the sheep in the Cheviot flock. Preliminary results from Anglo-Nubian goats and a cow are also reported.
Issues concerning the use of predictive and screening instruments include the difficulties posed by temporal changes in the base rates for the behaviour of interest, the possible advantages of using three rather than the customary two risk categories, and the desirability of specifying in advance the proportional sizes of the risk subgroups. A method is proposed for constructing and assessing tripartite risk scales, and a new scale for predicting the repetition of parasuicide, with the results of a prospective validation study, is reported.
The risk of the transmission of ruminant transmissible spongiform encephalopathy (TSE) to humans was thought to be low due to the lack of association between sheep scrapie and the incidence of human TSE. However, a single TSE agent strain has been shown to cause both bovine spongiform encephalopathy (BSE) and human vCJD, indicating that some ruminant TSEs are transmissible to humans. While the transmission of cattle BSE to humans in transgenic mouse models has been inefficient, indicating the presence of a significant transmission barrier between cattle and humans, BSE has been transmitted to a number of other species. Here, we aimed to further investigate the human transmission barrier following the passage of BSE in a sheep. Following inoculation with cattle BSE, gene-targeted transgenic mice expressing human PrP showed no clinical or pathological signs of TSE disease. However, following inoculation with an isolate of BSE that had been passaged through a sheep, TSE-associated vacuolation and proteinase K-resistant PrP deposition were observed in mice homozygous for the codon 129-methionine PRNP gene. This observation may be due to higher titers of the BSE agent in sheep or an increased susceptibility of humans to BSE prions following passage through a sheep. However, these data confirm that, contrary to previous predictions, it is possible that a sheep prion is transmissible to humans and that BSE from other species is a public health risk.The transmissible spongiform encephalopathies (TSEs) are a group of fatal infectious neurodegenerative diseases that include scrapie in sheep, bovine spongiform encephalopathy (BSE) in cattle, and Creutzfeldt-Jakob disease (CJD) in humans. TSEs are characterized by the accumulation in the brain of PrP Sc , which is a conformational variant of the normal cellular host prion protein (PrP C ). The abnormal form of the protein is protease resistant and detergent insoluble, and it aggregates in diffuse or amyloid deposits in the central nervous system (CNS) and lymphoreticular system of infected animals. TSEs are infectious diseases and can be transmitted between animals of the same and different species by a number of routes, including oral, environmental, or iatrogenic exposure. The host range is a specific characteristic of each strain, but TSE agents usually transmit more readily within rather than between species. Low transmission rates often are observed upon transmission to a new species, but on further passage in the new species increased transmission rates and shorter incubation times usually are observed. This effect is referred to as the species barrier. The ability of individual TSE agents to cross a species barrier can be examined experimentally by the direct inoculation of different species or modeled in transgenic mice expressing PrP sequences from these species. Modeling species barriers in mice is particularly important when assessing the risks of infection in humans. Such experiments can assess risk posed by different TSE agents and also the potential for the mu...
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