The high affinity calcium-binding sites in the epidermal growth factor module region of vitamin K-dependent protein S

Vitamin K-dependent protein S, a cofactor of the anticoagulant enzyme-activated protein C, has four epidermal growth factor (EGF)-like modules, all of which have one partially hydroxylated Asp (EGF 1; beta-hydroxyaspartic acid) or Asn (EGF 2, 3, and 4; beta-hydroxyasparagine) residue. The three C-terminal modules have a typical Ca2+ binding sequence motif that is usually present in EGF modules with hydroxylated Asp/Asn residues. Using the chromophoric Ca2+ chelators Quin 2 and 5,5'-Br2BAPTA, we have now determined the Ca2+ affinity of recombinant fragments containing EGF modules 1-3, 1-4, 2-3, and 2-4. EGF modules 1-4 and 2-4 each contains two very high affinity Ca2+-binding sites, i.e. with dissociation constants ranging from 10(-10) to 10(-8) M in the absence of salt and from 10(-8) to 10(-6) M in the presence of 0.15 M NaCl. In contrast, in EGF 1-3 and EGF 2-3, the Ca2+ affinity is 2-4 orders of magnitude lower. EGF 4 thus appears to have the highest Ca2+ affinity, and furthermore it seems to influence the Ca2+ affinity of its immediate N-terminal neighbor EGF 3 by a factor of approximately 230. In addition, EGF 4 seems to influence the Ca2+ affinity of EGF 2 by a factor of approximately 25. The Ca2+ affinity of the binding sites in EGF modules 3 and 4 in fragments EGF 1-4 and EGF 2-4 is 10(3)-10(5)-fold higher than in the corresponding isolated modules, implying important contributions to the Ca2+ affinity of each module from interactions with neighboring modules. This difference is much higher than the approximately 10-fold difference previously found in similar comparisons of EGF modules from fibrillin. However, the modules studied in protein S and fibrillin appear to have the similar Ca2+ ligands. The structural basis for the difference in Ca2+ affinity is not yet understood.