Deletion of P1 Arginine in a Novel Antithrombin Variant (Antithrombin London) Abolishes Inhibitory Activity but Enhances Heparin Affinity and Is Associated with Early Onset Thrombosis

Srikumar M Raja,Neetu Chhablani,Richard Swanson,Elizabeth Thompson,Mike Laffan,David A Lane,Steven T Olson

doi:10.1074/jbc.m300062200

Srikumar M Raja, Neetu Chhablani + Show 5 more

Open Access

https://doi.org/10.1074/jbc.m300062200

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Abstract

A novel variant of antithrombin, the major serpin inhibitor of coagulation proteases, has been identified in a patient with early onset thrombosis and abnormal plasma antithrombin activity. Sequencing of the antithrombin genes of the patient revealed that one of the two alleles was abnormal due to an in-frame deletion of the codon for the P1 arginine residue. The abnormal antithrombin was separated from the normal inhibitor by complexing the latter with thrombin followed by heparin-agarose affinity chromatography. The purified variant, antithrombin London, was completely inactive as a thrombin or factor Xa inhibitor even after heparin activation. Surprisingly, the variant bound heparin with a K(D) reflecting an approximately 10-fold greater affinity than the normal inhibitor. Stopped-flow kinetic analysis showed that this was almost entirely due to a more favorable conformational activation of the variant than the normal inhibitor, as reflected by a decreased rate constant for reversal of the activation. Consistent with its higher than normal heparin affinity, the inactive antithrombin variant was a potent competitive antagonist of the heparin-catalyzed reaction of normal antithrombin with thrombin but did not affect the uncatalyzed reaction. These results suggest that deletion of the antithrombin P1 residue partially activates the serpin by inducing strain in the reactive center loop, which destabilizes the native loop-buried state and favors the activated loop-exposed state with high heparin affinity. The unusually severe thrombosis associated with the heterozygous mutation may be explained by the ability of antithrombin London to bind endogenous heparan sulfate or heparin molecules with high affinity and to thereby block activation of the normal inhibitor.

Highlights

Antithrombin, a member of the serpin family of protein proteinase inhibitors, is the principal regulator of blood coagulation proteinases in plasma [1, 2]
In the present report we describe a novel dysfunctional variant of antithrombin associated with early onset thrombosis in the proband and a clear family history of thrombosis in affected individuals
Identification of a Novel Variant Antithrombin in a Patient with Early Onset Thrombosis—The 16-year-old proband presented in the clinic with deep vein thrombosis

Summary

EXPERIMENTAL PROCEDURES

Coagulation Tests—Patient antithrombin activity was measured as heparin cofactor activity using a commercially available kit (DadeBehring, Deerfield, IL). A 10% molar excess of thrombin over the normal antithrombin found in the preparation (5.8 ␮M) was added, and the mixture was incubated for 20 min at 25 °C, a time sufficient to fully complex the functional inhibitor based on the measured inhibition rate constant (Ͼ99.9%). Fast Protein Liquid Chromatography Analysis of Heparin Binding— Normal or variant antithrombins (10 ␮g) were applied to a 5-ml Hi-Trap heparin-Sepharose column equilibrated in I 0.15 buffer, washed, and eluted with the program used to purify the variant inhibitor given above. Heparin Binding Kinetics—Normal or variant antithrombins were reacted with at least a 5-fold molar excess of heparin to achieve pseudofirst-order conditions, and the kinetics of heparin binding were continuously monitored from the increase in protein fluorescence in an SX17MV stopped-flow instrument (Applied Biophysics, Leatherhead, UK) as in previous studies [7, 22]. Data were fit by this equation by fixing KAT,H at the measured value of 19 nM with KAT*,H a fitted parameter

RESULTS

63 Ϯ 10b ND ND ND

DISCUSSION