Abstract
Antithrombin-III-Hamilton is a structural mutant of antithrombin III with defective serine protease reactivity, demonstrable in three members of a French Canadian family. The propositus, a 54-year-old man with a history of recurrent thromboembolic events, and his two asymptomatic grown children are heterozygous for the mutant antithrombin III gene. In all three individuals, the immunoreactive antithrombin III level is normal, while the antithrombin and antifactor Xa activity is approximately 50% of the control value. Two dimensional immunoelectrophoresis of antithrombin-III-Hamilton in the presence of heparin is normal. Purified antithrombin-III-Hamilton did not form thrombin-antithrombin III complex when incubated with thrombin for up to 30 minutes. The normal and mutant antithrombin III alleles of the propositus could be distinguished by linkage to Pstl restriction fragment length polymorphisms (RFLP). Genomic DNA from the propositus was cloned into EMBL 3 phage vectors and two clones containing nearly complete copies of the antithrombin-III-Hamilton allele were identified. Exon 6 of both clones was subcloned into M13 phage vector and sequenced, revealing a G----A point mutation in the first base of codon 382. Codon 382 codes for alanine in the normal allele and for threonine in the antithrombin-III-Hamilton allele. Alanine-382, 12 residues from the reactive center, is a highly conserved amino acid in the family of serine protease inhibitors known as the serpins. We postulate that, as a result of the substitution of threonine for alanine in antithrombin-III-Hamilton, either the tertiary structure or the hydrophobicity of the thrombin-binding region is altered, causing aberrant conformation of the Arg-393-Ser-394 bond at the reactive center impairing the interaction between antithrombin-III-Hamilton and the activated serine proteases.
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