PLoS ONE (Jan 2013)

An activating mutation reveals a second binding mode of the integrin α2 I domain to the GFOGER motif in collagens.

  • Federico Carafoli,
  • Samir W Hamaia,
  • Dominique Bihan,
  • Erhard Hohenester,
  • Richard W Farndale

DOI
https://doi.org/10.1371/journal.pone.0069833
Journal volume & issue
Vol. 8, no. 7
p. e69833

Abstract

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The GFOGER motif in collagens (O denotes hydroxyproline) represents a high-affinity binding site for all collagen-binding integrins. Other GxOGER motifs require integrin activation for maximal binding. The E318W mutant of the integrin α2β1 I domain displays a relaxed collagen specificity, typical of an active state. E318W binds more strongly than the wild-type α2 I domain to GMOGER, and forms a 2:1 complex with a homotrimeric, collagen-like, GFOGER peptide. Crystal structure analysis of this complex reveals two E318W I domains, A and B, bound to a single triple helix. The E318W I domains are virtually identical to the collagen-bound wild-type I domain, suggesting that the E318W mutation activates the I domain by destabilising the unligated conformation. E318W I domain A interacts with two collagen chains similarly to wild-type I domain (high-affinity mode). E318W I domain B makes favourable interactions with only one collagen chain (low-affinity mode). This observation suggests that single GxOGER motifs in the heterotrimeric collagens V and IX may support binding of activated integrins.