The effect of the organic sulphated polyanions, pentosan sulphate (SP54), dextran sulphate 500 (DS500) and suramin, have been tested on golden Syrian hamsters infected with the 263K strain of scrapie by the intraperitoneal (i.p.) or the intracerebral route. SP54 had the greatest effect in prolonging the incubation period of the disease when administered within 2 h of the i.p. inoculum. The same amount of SP54 given 24 h after scrapie inoculation had a potent effect in some animals and no effect in others. This result suggests that SP54 inhibits the uptake of the scrapie agent into the nerve endings and/or carrier cells at the site of the inoculum, i.e. the peritoneum, and that this event occurs in about 24 h. DS500 had a similar although less potent effect (22.4 days delay during the incubation period) than SP54 (54.4 days) when administered within 2 h of scrapie injection by the i.p. route, and suramin had only a minimal effect (10 days). This study suggests that treatment of scrapie and related spongiform encephalopathies of animals and man is possible only before the agent has reached the clinical target areas of the brain.
Scrapie and related animal and human disorders are neurodegenerative diseases characterized by the formation of a modified, partly proteinase-resistant protein (PrP) of the host, which tends to aggregate as amyloid fibrils and accumulate in the brain of infected individuals. There is a general consensus that the pathological form of PrP (PrPSc) is essential for the clinical appearance of the disease, but whether it is part of the scrapie agent or a by-product of viral infection is still controversial. Here we report that treatment of scrapie-infected hamsters with amphotericin B delays the accumulation in the brain of the proteinase-resistant portion of PrPSc by about 30 days without affecting scrapie replication. The consequence is that hamsters treated with amphotericin B developed clinical signs of disease later than infected controls. We argue that the proteinase-resistant portion of PrPSc is necessary for the development of the disease but that it is unlikely to be essential for scrapie replication.
Complete sequencing of the prion protein open reading frame of a 68-year-old woman affected by a familial form of Creutzfeldt-Jakob disease (CJD) revealed a new mutation at codon 210 resulting in the substitution of isoleucine for valine. Moreover, a new 24-bp deletion encompassing codons 54 to 61 or 62 to 69 was found in the other allele. Four of the 17 asymptomatic relatives tested carry the 210 mutation. Two of them were 81 and 82 years old. Four of 22 patients with CJD whose recorded familial history was negative for demented illnesses, but none of 103 healthy control subjects, tested positive for the 210 mutation. These data suggest that the 210 mutation is associated with CJD, but that environmental factors or incomplete penetrance may contribute to the development of the disease. This finding also suggests that in Italy, familial CJD is more common than previously reported.
Viremia is found in intraperitoneally scrapie-injected hamsters. The absence of a viremic peak before the beginning of scrapie replication in the brain suggests either that the spread of the agent to the brain is not via the blood or that early after infection, circulating monocytes carry the agent to the brain where it remains silent until the neural cells start replicating it.
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