Electrostatic interactions during activation of coagulation factor IX via the tissue factor pathway: effect of univalent salts

Interaction between the Gla-domain of coagulation proteins and negatively charged phospholipid membranes is essential for blood coagulation reactions. The interaction is calcium-dependent and mediated both by electrostatic and hydrophobic forces. This report focuses on the electrostatic component of...

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Bibliographic Details
Published in:Biochimica et biophysica acta 1999-02, Vol.1453 (2), p.239-253
Main Authors: McGee, Maria P., Teuschler, Hoa, Liang, Jie
Format: Article
Language:English
Subjects:
Binding Sites
Calcium - chemistry
Cell Line
Cesium
Chlorides
Factor IX - chemistry
Humans
Membranes, Artificial
Models, Molecular
Monocytes
Osmolar Concentration
Sodium Chloride
Static Electricity
Thromboplastin - chemistry
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Summary:Interaction between the Gla-domain of coagulation proteins and negatively charged phospholipid membranes is essential for blood coagulation reactions. The interaction is calcium-dependent and mediated both by electrostatic and hydrophobic forces. This report focuses on the electrostatic component of factor IX activation via the extrinsic pathway. Effective charges during the reaction are measured by ionic titration of activity, according to the Debye–Huckel and Gouy–Chapman models. Rates of activation decrease with ionic strength independently of the type of monovalent salt used to control ionic strength. Moreover, the effect of ionic strength decreases at concentrations of charged phospholipid approaching saturation levels, indicating that membrane charges participate directly in the ionic interaction measured. The effective charge on calcium-bound factor IX during activation on phospholipid membranes is 0.95±0.1. Possible sites mediating contacts between the Gla-domain and membranes are selected by geometrical criteria in several metal-bound Gla-domain structures. A pocket with a solvent opening-pore of area 24–38 Å 2 is found in the Gla-domain of factors IX, VII, and prothrombin. The pocket contains atoms with negative partial charges, including carboxylate oxygens from Gla residues, and has a volume of 57–114 Å 3, sufficient to accommodate additional calcium atoms. These studies demonstrate that electrostatic forces modify the activity coefficient of factor IX during functional interactions and suggest a conserved pocket motif as the contact site between the calcium-bound Gla-domain and charged membranes.
ISSN:0925-4439
0006-3002
1879-260X
DOI:10.1016/S0925-4439(98)00108-2