1. Academic Validation
  2. Mutations in the shutter region of antithrombin result in formation of disulfide-linked dimers and severe venous thrombosis

Mutations in the shutter region of antithrombin result in formation of disulfide-linked dimers and severe venous thrombosis

  • J Thromb Haemost. 2004 Jun;2(6):931-9. doi: 10.1111/j.1538-7836.2004.00749.x.
J Corral 1 J A Huntington R González-Conejero A Mushunje M Navarro P Marco V Vicente R W Carrell
Affiliations

Affiliation

  • 1 Department of Medicine, University of Murcia, Murcia, Spain. jcc@um.es
Abstract

Background: Missense mutations causing conformational alterations in serpins can be responsible for protein deficiency associated with human diseases. However, there are few data about conformational consequences of mutations affecting antithrombin, the main hemostatic serpin.

Objectives: To investigate the conformational and clinical effect of mutations affecting the shutter region of antithrombin.

Patients and methods: We identified two families with significant reduction of circulating antithrombin displaying early and severe venous thrombosis, frequently associated with pregnancy or Infection. Mutations were determined by standard molecular methods. Biochemical studies were performed on plasma samples. One variant (P80S) was purified by heparin-affinity chromatography and gel filtration, and evaluated by proteomic analysis. Finally, we modelled the structure of the mutant dimer.

Results: We identified two missense mutations affecting the shutter region of antithrombin: P80S and G424R. Carriers of both mutations presented traces of a similar abnormal antithrombin, supporting inefficiently expressed rather than non-expressed variants. The abnormal antithrombin purified from P80S carriers is an inactive disulfide-linked dimer of mutant antithrombin whose properties are consistent with head-to-head insertion of the reactive loop.

Conclusions: Our data support the conclusion that missense mutations affecting the shutter region of serpins have specific conformational effects resulting in the formation of mutant oligomers. The consequent inefficiency of secretion explains the accompanying deficiency and loss of function, but the severity of thrombosis associated with these mutations suggests that the oligomers also have new and undefined pathological properties that could be exacerbated by pregnancy or Infection.

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