Functional Consequences of Mutations in Amino Acid Residues that Stabilize Calcium Binding to the First Epidermal Growth Factor Homology Domain of Human Protein C

Jie-Ping Geng; Chong-Hui Cheng; Francis J Castellino

doi:10.1055/s-0038-1650650

Thrombosis and Haemostasis, Table of Contents

Thromb Haemost 1996; 76(05): 720-728
DOI: 10.1055/s-0038-1650650

Original Article

Schattauer GmbH Stuttgart

Functional Consequences of Mutations in Amino Acid Residues that Stabilize Calcium Binding to the First Epidermal Growth Factor Homology Domain of Human Protein C

Jie-Ping Geng

The Department of Chemistry and Biochemistry, University of Notre Dame, Notre Dame, Indiana, USA

,

Chong-Hui Cheng

The Department of Chemistry and Biochemistry, University of Notre Dame, Notre Dame, Indiana, USA

,

Francis J Castellino

The Department of Chemistry and Biochemistry, University of Notre Dame, Notre Dame, Indiana, USA

› Author Affiliations

Abstract

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Summary

Charge-to-alanine mutations of three amino acid residues, viz., D⁴⁶, D⁴⁸, and D/Hya⁷¹, which are known to be important in stabilizing Ca²⁺ binding to epidermal growth factor (EGF) domains of vitamin K-de-pendent blood coagulation proteins, have been engineered into recombinant human protein C (r-PC), The resulting variants were then employed to assess the importance of this Ca²⁺ binding site in the activation properties of r-PC and in the activity of activated protein C (APC). Another mutation, of D⁴⁸ to E, was constructed in order that a more conservative mutation at the Ca²⁺ binding site could be similarly examined.

The mutant proteins were fully processed with regard to proper signal peptide cleavage, γ-carboxylation, and β-hydroxylation, except, of course, for the D⁷¹A mutant in this latter case. The D⁴⁸E variant possessed an additional residue of γ-carboxyglutamic acid (Gla), showing that E⁴⁸ was γ-carboxylated. All of the mutants were reactive against a monoclonal antibody (MAb) specific for a Ca²⁺-dependent epitope within the amino-terminus of the Gla domain of r-PC, demonstrating that a proper Ca²⁺-dependent conformation was adopted in this region of the protein. None of the mutants, except for [D⁴⁸γ]r-PC, were reactive against another Ca²⁺-dependent MAb which possessed specificity for Ca²⁺ binding to the EGF1 region of PC-this being the area of the protein that contained the mutated residues. These data strongly suggest that the alanine mutations present at D⁴⁶, D⁴⁸, and D⁷¹ diminished Ca²⁺ binding to the EGF1 domain of r-PC.

Steady state kinetic analysis demonstrated that determinants for the Ca²⁺-dependent inhibition of the thrombin (flla)-catalyzed activation of r-PC, and for the kinetic recognition of the flla/thrombomodulin complex, were not dependent on the integrity of the Ca²⁺ sites present in EGF1. The lone exception was [D⁴⁸γ]r-PC, which did not undergo inhibition by Ca²⁺, an effect likely due to the potential for altered coordination of Ca²⁺ due to the Gla insertion, rather than to a dependency on D⁴⁸. Plasma-based anticoagulant assays, as well as individual factor Va and factor Villa inactivation assays, showed that only [D71A]r-APC possessed a significantly reduced activity compared to wild-type r-APC. These observations suggest that D/Hya⁷¹ is likely an important determinant for activity of APC toward its physiological substrates, factor Va and factor Villa.

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References

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