Title of article
Binding Site Structure of One LRP–RAP Complex:Implications for a Common Ligand–Receptor Binding Motif
Author/Authors
Gitte A. Jensen، نويسنده , , Olav M. Andersen، نويسنده , , Alexandre MJJ Bonvin، نويسنده , , Ida Bjerrum-Bohr، نويسنده , , Michael Etzerodt، نويسنده , , Hans C. Th?gersen، نويسنده , , Charlotte OʹShea، نويسنده , , Flemming M. Poulsen، نويسنده , , Birthe B. Kragelund، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2006
Pages
17
From page
700
To page
716
Abstract
The low-density lipoprotein receptor-related protein (LRP) interacts with more than 30 ligands of different sizes and structures that can all be replaced by the receptor-associated protein (RAP). The double module of complement type repeats, CR56, of LRP binds many ligands including all three domains of RAP and α2-macroglobulin, which promotes the catabolism of the Aβ-peptide implicated in Alzheimerʹs disease. To understand the receptor–ligand cross-talk, the NMR structure of CR56 has been solved and ligand binding experiments with RAP domain 1 (RAPd1) have been performed. From chemical shift perturbations of both binding partners upon complex formation, a HADDOCK model of the complex between CR56 and RAPd1 has been obtained. The binding residues are similar to a common binding motif suggested from α2-macroglobulin binding studies and provide evidence for an understanding of their mutual cross-competition pattern. The present structural results convey a simultaneous description of both binding partners of an LRP–ligand complex and open a route to a broader understanding of the binding specificity of the LRP receptor, which may involve a general four-residue receptor–ligand recognition motif common to all LRP ligands. The present result may be beneficial in the design of antagonists of ligand binding to the LDL receptor family, and especially of drugs for treatment of Alzheimerʹs disease.
Keywords
NMR , haddock , Domain , SPR , Lipoprotein
Journal title
Journal of Molecular Biology
Serial Year
2006
Journal title
Journal of Molecular Biology
Record number
1248605
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