Divalent cations differentially regulate integrin alpha(IIb) cytoplasmic tail binding to beta(3) and to calcium- and integrin-binding protein

Citation
L. Vallar et al., Divalent cations differentially regulate integrin alpha(IIb) cytoplasmic tail binding to beta(3) and to calcium- and integrin-binding protein, J BIOL CHEM, 274(24), 1999, pp. 17257-17266
Citations number
51
Categorie Soggetti
Biochemistry & Biophysics
Journal title
JOURNAL OF BIOLOGICAL CHEMISTRY
ISSN journal
00219258 → ACNP
Volume
274
Issue
24
Year of publication
1999
Pages
17257 - 17266
Database
ISI
SICI code
0021-9258(19990611)274:24<17257:DCDRIA>2.0.ZU;2-I
Abstract
We have used recombinant or synthetic alpha(IIb) and beta(3) integrin cytop lasmic peptides to study their in vitro complexation and ligand binding cap acity by surface plasmon resonance. alpha(.)beta heterodimerization occurre d in a 1:1 stoichiometry with a weak K-D in the micromolar range. Divalent cations were not required for this association but stabilized the alpha(.)b eta complex by decreasing the dissociation rate. alpha(.)beta complexation was impaired by the R995A substitution or the KVGFFKR deletion in alpha(IIb ) but not by the beta(3) S752P mutation. Recombinant calcium-and integrin-b inding protein (CIB), an alpha(IIb)-specific ligand, bound to the alpha(IIb ) cytoplasmic peptide in a Ca2+- or Mn2+-independent, one-to-one reaction w ith a K-D value of 12 mu M. In contrast, in vitro liquid phase binding of C IB to intact alpha(IIb)beta(3) occurred preferentially with Mn2+-activated alpha(IIb)beta(3) conformers, as demonstrated by enhanced coimmunoprecipita tion of CIB with PAC-1-captured Mn2+-activated alpha(IIb)beta(3), suggestin g that Mn2+ activation of intact alpha(IIb)beta(3) induces the exposure of a GIB-binding site, spontaneously exposed by the free alpha(IIb) peptide. S ince CIB did not stimulate PAC-1 binding to inactive alpha(IIb)beta(3) nor prevented activated alpha(IIb)beta(3) occupancy by PAC-1, we conclude that CIB does not regulate alpha(IIb)beta(3) inside-out signaling, but rather is involved in an alpha(IIb)beta(3) post-receptor occupancy event.