Interaction of the cellular prion protein with laminin and STI-1 and their possible biological implications

Conversion of the cellular prion protein (PrPc) to its abnormal isoform PrPsc is associated with some neurodegenerative and fatal diseases called prion diseases. Although the literature has been emphasizing the mechanism of PrPsc conversion and illness propagation, little attention has been given to the PrPc physiological role. In 1997, our group described a PrPc receptor/ligand based on the complementary hydropathy theory. Herein, we identify the PrPc receptor/ligand as STI-1, the Stress Inducible Protein-1. In vitro studies showed that STI-1 is a specific, saturable and high affinity ligand for PrPc (Kd=8x10-8M). In parallel, we demonstrated that PrPc interacts with RNIAEIIKDI domain of laminin (Ln) (Kd=2x10-8M). The blockage of PrPc, both from embryonic rats and mice hippocampal neuros, inhibited Ln-induced neurite outgrowth. In addition, neurons from PrPc null mice are unable to extend neurites on RNIAEIIKDI, suggesting that PrPc is the unique cellular receptor for this Ln domain. These data indicate that PrPc-Ln interaction is relevant for neuronal adhesion and differentiation. The characterization of PrPc-Ln and PrPc-STl-1 interactions represents important contributions for the elucidation of the PrPc physiological role. (AU)