Binding of recombinant PrPc to human plasminogen: kinetic and thermodynamic study using a resonant mirror biosensor

Transmissible spongiform encephalopathies are a class of sporadic, genetic and transmissible neurodegenerative diseases that affect both humans and animals. Propagation of these diseases is thought to be due to the misfolding of a neuronal glyco-protein, PrP(c), into a pathological insoluble conformer, PrP(Sc). In earlier works, some serum components were identified as exclusive PrP(Sc)-interacting proteins (Fisher et al., Nature 2000;408:479), and thus those macromolecules were thought to represent a potential diagnostic endogenous factor discriminating between normal and pathological prion proteins. In contrast, in agreement with a recent work (Kornblatt et al., Biochem Biophys Res Commun 2003;305:518), in this paper we present a detailed thermodynamic and kinetic characterization of the interaction between recombinant bovine PrP(c 25-242) and the human serum component plasminogen, measured using a resonant mirror technique: our results reveal a high-affinity interaction between the two binding partners. For comparison, the complex obtained from the purified full-length PrP(c) and human plasminogen was also studied: both prion proteins (the recombinant bovine PrP(c 25-242) and the purified full-length PrP(c)) are able to bind human plasminogen. Both kinetic and thermodynamic parameters are affected by the modulation exerted by the H(+) ions in solution. Moreover, the analysis of binding, according to canonical linkage relationships, suggests the involvement of a His residue, consistent with the interaction between other serine (pro)enzymes and their ligands.