Molecular analysis of bovine spongiform encephalopathy and scrapie strain variation.

Five mouse scrapie strains, a mouse-passaged scrapie isolate derived from a field case in sheep in Germany, and 2 mouse-passaged bovine spongiform encephalopathy (BSE) isolates were analyzed by immunoblot in regards to banding patterns of proteinase K-digested pathologic prion proteins (PrPres). To obtain reliable results, the photo-imager technique was used for measurement of staining band intensities. Distinct and reproducible profiles were observed for the different strains or isolates. A British and a German BSE isolate were similar, suggesting the same source of infection. The German scrapie isolate resembled scrapie strain ME7, which has frequently been isolated from sheep scrapie in the past. In selected strains or isolates, no influence of the mouse lines used was observed on PrPres profiles, nor were brain region-specific differences apparent. This investigation suggests that PrPres glycotyping can be an invaluable tool for the in vitro differentiation of BSE and scrapie isolates.

Role of microglia in neuronal cell death in prion disease.

To elucidate the role played by the prion protein in scrapie pathogenesis, we performed experiments with PrP27-30 isolated from scrapie-infected hamster brains in cell culture and studied in vivo the temporal and spatial correlation between deposition of the disease-associated isoform of the prion protein (PrPSc), microglial activation and neuronal cell death in mice infected with scrapie strains 79A, ME7 and RML. The results presented here show that cellular expression of PrPc and the presence of microglia are necessary for the neurotoxicity of PrPSc in vitro. In vivo, accumulation of protease-resistant prion protein was detected early in the incubation period using the histoblot technique. Microglial activation was also detected early in the incubation period of all models studied. Both the time course and the spatial distribution of microglial activation closely resembled the pattern of PrPSc deposition. Microglial activation clearly preceded the detection of apoptotic neuronal cell death which was assessed using the in situ end-labeling technique (ISEL). Taken together, our results indicate that microglial activation is involved in the neurotoxicity of PrPSc both in vitro and in vivo.