IntroductionWe recently identi®ed the 37-kDa laminin receptor precursor (LRP) as an interactor for the prion protein (PrP) (Rieger et al., 1997; for reviews see Rieger et al., 1999;Gauczynski et al., 2001a). Employing a series of neuronal and non-neuronal cells, we proved that the 37-kDa LRP/67-kDa high-af®nity laminin receptor (LR) acts as the receptor for the cellular PrP (Gauczynski et al., 2001b). In the present manuscript we used the yeast twohybrid system and cell-binding studies on neuronal as well as non-neuronal cells involving the Semliki Forest virus (SFV) system (for reviews see Liljestrom and Garoff, 1991;Tubulekas et al., 1997) to identify domains on the PrP and the LRP involved in the PrP±LRP interaction on the cell surface. We identi®ed two binding domains for LRP on PrP termed PrPLRPbd1 and PrPLRPbd2. The ®rst one binds directly to LRP, whereas the second one depends on the presence of heparan sulfate proteoglycans (HSPGs) on the cell surface. The yeast two-hybrid system and cell-binding assays on wild-type and mutant HSPGde®cient Chinese hamster ovary (CHO) cells also identi®ed two binding domains for PrP on LRP.The relationship between 37-kDa LRP and 67-kDa LR is not yet fully understood and has been explained with homodimerization of 37-kDa LRP (Landowski et al., 1995) or an additional factor, such as a polypeptide (Castronovo et al., 1991), which might bind to 37-kDa LRP to form the 67-kDa form of the receptor. The 67-kDa heterodimer might be stabilized by hydrophobic interactions mediated by fatty acids such as palmitate, oleate and stearate bound to 37-kDa LRP and to a galectin-3 (gal-3) cross reacting polypeptide (Landowski et al., 1995;Buto et al., 1998). However, we recently proved that the b-galactoside lectin gal-3 is not present on the surface of neuronal or non-neuronal cells used for PrP-binding/ internalization studies (Gauczynski et al., 2001b) and antigal-3 antibodies failed to compete for the 37-kDa LRP/67-kDa LR-mediated binding and internalization of the cellular PrP (Gauczynski et al., 2001b), suggesting that gal-3 is not a partner of the 37-kDa LRP in this context. In this study we investigated by a yeast two-hybrid system analysis whether gal-3 interacts with 37-kDa LRP and/or the cellular PrP. In addition, we investigated whether 37-kDa LRP interacts with itself in the yeast two-hybrid and analysed the monomer/dimer status of the receptor by sizeexclusion chromatography. Both PrP (Gabizon et al., 1993;Caughey et al., 1994;Chen,S.G. et al., 1995;Brimacombe et al., 1999) and the 37-kDa/67-kDa LR (Guo et al., 1992;Kazmin et al., 2000) bind to heparan sulfates. HSPGs are required for the binding of the ®broblast growth factor (FGF) to its FGFR receptor (Yayon et al., 1991;Spivak et al., 1994;Venkataraman et al., 1999) and act as initial attachment receptors for bacteria (Chen,T. et al., 1995) and viruses including alphaviruses (Byrnes and Grif®n, 1998), human immunode®ciency virus (HIV) type 1 (Mondor et al., 1998) and vaccinia virus (Chung et al., 1998). Heparan sulfates are...
