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The interaction of a Ca2+-dependent monoclonal antibody with the protein C activation peptide region. Evidence for obligatory Ca2+ binding to both antigen and antibody
Authors:D J Stearns  S Kurosawa  P J Sims  N L Esmon  C T Esmon
Institution:Thrombosis/Hematology Research Program, Oklahoma Medical Research Foundation, Oklahoma City 73104.
Abstract:Protein C undergoes Ca2+-induced conformational changes required for activation by the thrombin-thrombomodulin complex. A Ca2+-dependent monoclonal antibody (HPC4) that blocks protein C activation was used to study conformational changes near the activation site in protein C. The half-maximal Ca2+ dependence was similar for protein C and gamma-carboxy-glutamic acid-domainless protein C for binding to HPC4 (205 +/- 23 and 110 +/- 29 microM Ca2+, respectively), activation rates (214 +/- 22 and 210 +/- 37 microM), and intrinsic fluorescence of gamma-carboxyglutamic acid-domainless protein C (176 +/- 34 microM). Protein C heavy chain binding to HPC4 was half-maximal at 36 microM Ca2+, although neither the heavy chain nor HPC4 separately bound Ca2+ with high affinity. The epitope was lost when the activation peptide was released. A synthetic peptide, P (6-17), which spans the activation site, exhibited Ca2+-dependent binding to HPC4 (half-maximal binding = 6 microM Ca2+). Thus, each decrease in antigen structure resulted in a reduced Ca2+ requirement for binding to HPC4. Tb3+ and Ca2+ binding studies demonstrated a Ca2+-binding site in HPC4 required for high affinity antigen binding. These studies provide the first direct evidence for a Ca2+-induced conformational change in the activation region of a vitamin K-dependent zymogen. Furthermore, Ca2+ binding to HPC4 is required for antigen binding. The multiple roles of Ca2+ described may be useful in interpretation of other metal-dependent antibody/antigen interactions.
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