Abstract
Little is currently known about the biochemical mechanism by which induced prion protein (PrP) conformational change occurs during mammalian prion propagation. In this study, we describe the reconstitution of PrPres amplification in vitro using partially purified and synthetic components. Overnight incubation of purified PrP27-30 and PrPC molecules at a molar ratio of 1:250 yielded approximately 2-fold baseline PrPres amplification. Addition of various polyanionic molecules increased the level of PrPres amplification to approximately 10-fold overall. Polyanionic compounds that stimulated purified PrPres amplification to varying degrees included synthetic, homopolymeric nucleic acids such as poly(A) and poly(dT), as well as non-nucleic acid polyanions, such as heparan sulfate proteoglycan. Size fractionation experiments showed that synthetic poly(A) polymers must be >0.2 kb in length to stimulate purified PrPres amplification. Thus, one possible set of minimal components for efficient conversion of PrP molecules in vitro may be surprisingly simple, consisting of PrP27-30, PrPC, and a stimulatory polyanionic compound.
Highlights
Transmissible spongiform encephalopathies such as Creutzfeldt-Jakob disease, bovine spongiform encephalopathy (BSE),1 chronic wasting disease, and scrapie are fatal infectious diseases of the central nervous system with an unusual etiology
These results showed that RNA molecules within crude brain homogenates promote efficient PrPres amplification in non-purified systems such as protein-misfolding cyclic amplification
The molar ratio of PrPSc-to-PrPC used in this purified PrPres amplification system is ϳ1:250, and ϳ10-fold amplification of PrPres is observed after a 16-h incubation period
Summary
Using these preparations, we have generated and characterized an efficient in vitro PrPres amplification system using only purified and synthetic components. Our results show that one possible set of minimal components for efficient amplification of PrPres in vitro may be surprisingly simple, consisting of PrPC, PrPSc, and a polyanionic compound
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