Prion diseases are fatal neurodegenerative infectious disorders for which no therapeutic or prophylactic regimens exist. Our work aims to eliminate PrP(c) as substrate for the conversion into PrP(Sc) and to increase the cellular clearance capacity of PrP(Sc). In order to achieve the first objective, we used chemical compounds which interfere with the subcellular trafficking of PrP(c), e.g. by intracellular re-routing. Recently, we found that PrP(c) requires cholesterol for cell surface localisation. Treatment with mevinolin significantly reduced the amount of cell surface PrP(c) and led to its accumulation in the Golgi compartment. These data show that cholesterol is essential for the cell surface localisation of PrP(c), which is in turn known to be necessary for the formation of PrP(Sc). Another anti-prion strategy uses RNA and peptide aptamers directed against PrP(c). We have selected peptide aptamers using a constrained peptide library presented on the active site loop of the Escherichia coli protein TrxA in a Y2H screen. Several peptides reproducibly binding to PrP(c) in several assays were identified. Preliminary data indicate that selected peptide aptamers are able to interfere with prion propagation in prion-infected cells. To obtain additive effects we have tried to clarify cellular mechanisms that enable cells to clear prion infectivity. This goal was achieved by selective interference in intracellular signalling pathways which apparently also increase the cellular autophagy machinery. Finally, we have tried to establish an active auto-vaccination approach directed against PrP, which gave some positive preliminary results in the mouse system. This might open the door to classical immunological interference techniques.
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Prion diseases are fatal neurodegenerative infectious disorders for which no therapeutic or prophylactic regimens exist. Our work aims to eliminate PrP(c) as substrate for the conversion into PrP(Sc) and to increase the cellular clearance capacity of PrP(Sc). In order to achieve the first objective, we used chemical compounds which interfere with the subcellular trafficking of PrP(c), e.g. by intracellular re-routing. Recently, we found that PrP(c) requires cholesterol for cell surface localisat...
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