The structure of RAP1 in complex with RIAM reveals specificity determinants and recruitment mechanism

Hao Zhang, Yu Chung Chang, Mark L. Brennan, Jinhua Wu

Research output: Contribution to journalArticlepeer-review

15 Scopus citations

Abstract

The small GTPase Rap1 induces integrin activation via an inside-out signaling pathway mediated by the Rap1-interacting adaptor molecule (RIAM). Blocking this pathway may suppress tumor metastasis and other diseases that are related to hyperactive integrins. However, the molecular basis for the specific recognition ofRIAMbyRap1 remains largelyunknown. Hereinwepresent the crystal structure of an active, GTP-bound GTPase domain of Rap1 in complex with the Ras association (RA)-pleckstrin homology (PH) structural module of RIAM at 1.65A° . The structure reveals that the recognition of RIAM by Rap1 is governed by side-chain interactions. Several side chains are critical in determining specificity of this recognition, particularly the Lys31 residue in Rap1 that is oppositely charged compared with the Glu31/Asp31 residue in other Ras GTPases. Lys31 forms a salt bridge with RIAM residue Glu212, making it the key specificity determinant of the interaction. Wealso showthat disruption of these interactions results in reduction of Rap1:RIAM association, leading to a loss of co-clustering and cell adhesion. Our findings elucidate the molecular mechanism by which RIAM mediates Rap1-induced integrin activation. The crystal structure also offers new insight into the structural basis for the specific recruitment of RA-PH module-containing effector proteins by their small GTPase partners.

Original languageEnglish
Article numbermjt044
Pages (from-to)128-139
Number of pages12
JournalJournal of Molecular Cell Biology
Volume6
Issue number2
DOIs
StatePublished - Apr 2014

Keywords

  • Adaptor Proteins, Signal Transducing/chemistry
  • Amino Acid Sequence
  • Amino Acids/metabolism
  • Animals
  • Cell Adhesion
  • Cell Membrane/metabolism
  • Crystallography, X-Ray
  • Humans
  • Integrins/metabolism
  • Membrane Proteins/chemistry
  • Mice
  • Models, Molecular
  • Molecular Sequence Data
  • Mutation
  • Protein Binding
  • Protein Structure, Tertiary
  • Reproducibility of Results
  • Shelterin Complex
  • Structural Homology, Protein
  • Substrate Specificity
  • Telomere-Binding Proteins/chemistry
  • ras Proteins/metabolism

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