Abstract
Binding of recombinant prion protein with small highly structured RNAs, prokaryotic and eukaryotic prion protein mRNA pseudoknots, tRNA and polyA has been studied by the change in fluorescence anisotropy of the intrinsic tryptophan groups of the protein. The affinities of these RNAs to the prion protein and the number of sites where the protein binds to the nucleic acids do not vary appreciably although the RNAs have very different compositions and structures. The binding parameters do not depend upon pH of the solution and show a poor co-operativity. The reactants form larger nucleoprotein complexes at pH 5 compared to that at neutral pH. The electrostatic force between the protein and nucleic acids dominates the binding interaction at neutral pH. In contrast, nucleic acid interaction with the incipient nonpolar groups exposed from the structured region of the prion protein dominates the reaction at pH 5. Prion protein of a particular species forms larger complexes with prion protein mRNA pseudoknots of the same species. The structure of the pseudoknots and not their base sequences probably dominates their interaction with prion protein. Possibilities of the conversion of the prion protein to its infectious form in the cytoplasm by nucleic acids have been discussed.
Highlights
Cellular prion protein, PrPC, is a soluble α-helix rich glycoprotein attached to the outer cell surface by a glycophosphatidyl inositol linkage [1,2]
We have studied the binding of small highly structured RNAs (shsRNA) and prion protein mRNA pseudoknots with human recombinant full-length prion protein and compared with binding properties of tRNA and poly A to the protein
We have shown polymerization of prion protein to linear and spherical amyloids induced by PolyA and tRNA at pH5 [31]
Summary
PrPC, is a soluble α-helix rich glycoprotein attached to the outer cell surface by a glycophosphatidyl inositol linkage [1,2]. It has been demonstrated that structural conversion of the cellular prion protein to its scrapie isoform PrPSc takes place in acidic pH5 in the endosomes and lysosomes [7,8,9,10,11]. The fibrils formed from in vivo isolated hamster PrP 27–30 amyloid or fibrils obtained by converting cellular hamster PrPC have been found to be noninfectious in transgenic mice over-expressing full-length Syrian prion protein [17]. The amyloid formed from the truncated 90–231 fragment of mouse recombinant prion protein (23–231 amino acid) is found to be infectious in the experimental mice over-expressing this protein fragment and shows strain characteristics of the prion disease [18,19]. By partially disaggregating PK-resistant amyloid isolated from scrapie infected hamster brain, it has been shown that the maximum prion infectivity is associated with prion particles having 17–27 nm diameter (300–600 kDa) whereas the large fibrils show lower prion infectivity [21]
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