Dissection of the Domain Architecture of the α2macroglobulin‐Receptor‐Associated Protein

Abstract

The alpha2macroglobulin-receptor-associated protein (RAP) binds to the alpha2macroglobulin receptor/low-density lipoprotein receptor-related protein (alpha2MR/LRP), a multi-functional cell surface receptor known to bind and internalize several macromolecular ligands. RAP has been shown to inhibit binding of all known alpha2MR/LRP ligands. Mutational studies have implicated distinct parts of RAP as specifically involved in inhibition of binding of a multitude of ligands. In the present paper we provide experimental evidence allowing assignment of elements of triplicate internal sequence similarity in RAP, noted previously [Warshawsky, I., Bu, G. & Schwartz, A. L. (1995) Sites within the 39-kDa protein important for regulating ligand binding to the low-density lipoprotein receptor-related protein, Biochemistry 34, 3404-3415], to three structural domains, 1, 2 and 3, comprising residues 18-112, 113-218 and 219-323 of RAP, respectively. Structural analysis by 1H-NMR spectroscopy shows that domains 1 and 2 as separate domains have similar secondary structures, consisting almost exclusively of alpha-helices, whereas domain 3 as a separate domain appears only to be marginally stable. Ligand competition titration of recombinant RAP domains 1, 2 and 3 and double domains 1+2 and 2+3 against 125I-RAP and 125I-alpha2M* (methylamine-activated alpha2M) for binding to alpha2MR/LRP demonstrated (a) that functional integrity in single domains is largely preserved, and (b) that important determinants for the inhibition of test ligands reside in the C-terminal regions of domains 1 and 3.