Crystal structure of the α1β1 integrin I-domain: insights into integrin I-domain function

The α1β1 integrin is a major cell surface receptor for collagen. Ligand binding is mediated, in part, through a ∼200 amino acid inserted ‘I’-domain contained in the extracellular part of the integrin α chain. Integrin I-domains contain a divalent cation binding (MIDAS) site and require cations to in...

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Bibliographic Details
Published in:FEBS letters 1999-06, Vol.452 (3), p.379-385
Main Authors: Nolte, Matthias, Pepinsky, R.Blake, Venyaminov, Sergei Yu, Koteliansky, Victor, Gotwals, Philip J., Karpusas, Michael
Format: Article
Language:English
Subjects:
Adhesion
Collagen
Crystal structure
I-domain
Integrin
Metal binding
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Summary:The α1β1 integrin is a major cell surface receptor for collagen. Ligand binding is mediated, in part, through a ∼200 amino acid inserted ‘I’-domain contained in the extracellular part of the integrin α chain. Integrin I-domains contain a divalent cation binding (MIDAS) site and require cations to interact with integrin ligands. We have determined the crystal structure of recombinant I-domain from the rat α1β1 integrin at 2.2 Å resolution in the absence of divalent cations. The α1 I-domain adopts the dinucleotide binding fold that is characteristic of all I-domain structures that have been solved to date and has a structure very similar to that of the closely related α2β1 I-domain which also mediates collagen binding. A unique feature of the α1 I-domain crystal structure is that the MIDAS site is occupied by an arginine side chain from another I-domain molecule in the crystal, in place of a metal ion. This interaction supports a proposed model for ligand-induced displacement of metal ions. Circular dichroism spectra determined in the presence of Ca 2+, Mg 2+ and Mn 2+ indicate that no changes in the structure of the I-domain occur upon metal ion binding in solution. Metal ion binding induces small changes in UV absorption spectra, indicating a change in the polarity of the MIDAS site environment.
ISSN:0014-5793
1873-3468
DOI:10.1016/S0014-5793(99)00666-3