Abstract:

Receptor tyrosine kinases of the Axl family are activated by the vitamin K-dependent protein Gas6. Axl signalling plays important roles in cancer, spermatogenesis, immunity, and platelet function. The crystal structure at 3.3 A resolution of a minimal human Gas6/Axl complex reveals an assembly of 2:2 stoichiometry, in which the two immunoglobulin-like domains of the Axl ectodomain are crosslinked by the first laminin G-like domain of Gas6, with no direct Axl/Axl or Gas6/Gas6 contacts. There are two distinct Gas6/Axl contacts of very different size, both featuring interactions between edge beta-strands. Structure-based mutagenesis, protein binding assays and receptor activation experiments demonstrate that both the major and minor Gas6 binding sites are required for productive transmembrane signalling. Gas6-mediated Axl dimerisation is likely to occur in two steps, with a high-affinity 1:1 Gas6/Axl complex forming first. Only the minor Gas6 binding site is highly conserved in the other Axl family receptors, Sky/Tyro3 and Mer. Specificity at the major contact is suggested to result from the segregation of charged and apolar residues to opposite faces of the newly formed beta-sheet.

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Structural basis for Gas6–Axl signalling

^{Max-Planck-Institut für Biochemie, Martinsried, Germany}

^{Division of Cell and Molecular Biology, Imperial College London, London, UK}

^{Biophysics Section, Blackett Laboratory, Imperial College London, London SW7 2AZ, UK. Tel.:+44 20 7594 7701; Fax +44 20 7589 0191; E-mail:}ku.ca.lairepmi@retsenehoh.e

Received 2005 Sep 2; Accepted 2005 Nov 21.

Abstract

Receptor tyrosine kinases of the Axl family are activated by the vitamin K-dependent protein Gas6. Axl signalling plays important roles in cancer, spermatogenesis, immunity, and platelet function. The crystal structure at 3.3 Å resolution of a minimal human Gas6/Axl complex reveals an assembly of 2:2 stoichiometry, in which the two immunoglobulin-like domains of the Axl ectodomain are crosslinked by the first laminin G-like domain of Gas6, with no direct Axl/Axl or Gas6/Gas6 contacts. There are two distinct Gas6/Axl contacts of very different size, both featuring interactions between edge β-strands. Structure-based mutagenesis, protein binding assays and receptor activation experiments demonstrate that both the major and minor Gas6 binding sites are required for productive transmembrane signalling. Gas6-mediated Axl dimerisation is likely to occur in two steps, with a high-affinity 1:1 Gas6/Axl complex forming first. Only the minor Gas6 binding site is highly conserved in the other Axl family receptors, Sky/Tyro3 and Mer. Specificity at the major contact is suggested to result from the segregation of charged and apolar residues to opposite faces of the newly formed β-sheet.

Keywords: immunoglobulin-like domain, laminin G-like domain, receptor tyrosine kinase, site-directed mutagenesis, X-ray crystallography

Abstract

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Acknowledgments

We thank Jürgen Engel and Ariel Lustig (Biozentrum Basel, Switzerland) for the analytical ultracentrifugation experiments; Xavier Thibault and the staff at ESRF (Grenoble, France) and Federico Carafoli for help with X-ray data collection; Peter Brick, Jason Howitt and Birgit Leitinger for critical reading of the manuscript. This work was supported by a Wellcome Senior Research Fellowship to EH (ref 54334) and a DFG grant to RT (ref Ti95/8-2).

Accession code The coordinates and structure factors of the Gas6-LG/Axl-IG complex have been deposited in the Protein Data Bank (accession code 2c5d).

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