Low anticoagulant heparin retains anti-HIV type 1 activity in vitro.

Heparin is a potent inhibitor of HIV-1 replication, in addition to being a well-established inhibitor of blood coagulation. The major anticoagulant activity of heparin results from binding to the plasma protein antithrombin (AT). The high-affinity binding site for AT is a specific pentasaccharide sequence that is of low abundance and completely absent from the majority of heparin chains.

Antithrombins Southport (Leu 99 to Val) and Vienna (Gln 118 to Pro): two novel antithrombin variants with abnormal heparin binding.

We report the characterization of three variant antithrombins with reduced heparin binding as the primary abnormality. Two of these variants, antithrombin Southport (Leu 99 to Val, 2759 C to G) and antithrombin Vienna (Gln 118 to Pro, 5349 A to C) were novel, whereas the third, Pro 41 to Leu, has been previously described as antithrombin Basel. All three variants exhibited reduced binding for heparin on crossed immunoelectrophoresis and in a quantitative monoclonal antibody-based assay.

Role of N- and C-terminal amino acids in antithrombin binding to pentasaccharide.

We have used a monoclonal antibody-based binding procedure to determine the dissociation constants of the interactions between the essential antithrombin-binding pentasaccharide and a series of 13 distinct N- and C-terminal antithrombin substitution mutation variants with defective binding interaction with heparin. The reduction in binding affinity of the pentasaccharide with the N-terminal variants (with substitution mutations Pro-41-->Leu, Arg-47-->Cys and His, Leu-99-->Val and Phe, Gln-118-->Pro, Arg-129-->Gln) compared to normal antithrombin, Kd 200 nM, ranged from 15-984-fold and was generally less than 150-fold. Reduced binding affinity is assumed to arise mostly by perturbation, direct or indirect, of the initial contact of pentasaccharide with basic residues of antithrombin.

Heparin binding affinity of normal and genetically modified antithrombin III measured using a monoclonal antibody to the heparin binding site of antithrombin III.

The inhibitory activity of the plasma serine proteinase inhibitor antithrombin III (AT III) is enhanced about 1000-fold upon binding to heparin. We have determined the dissociation constants, Kd, of 48.8 nM for the heparin-AT III interaction, of 175 nM for the specific pentasaccharide-AT III interaction, and of 13 microM for the low-affinity heparin-AT III interaction, using a binding assay based on a monoclonal antibody (MAb) that recognizes an epitope at or close to the heparin binding site of AT III.

Anti-Xa clotting activities in different hepatic-triglyceride lipase preparations from post-heparin plasma.

Two different preparations of hepatic triglyceride lipase (HTGL) with comparable lipolytic activities, purified from post-heparin human plasma, were assessed for their anti-Xa activities by two clotting and one chromogenic method. Preparation 1, prepared by heparin affinity followed by ion exchange chromatography, did not contain antithrombin III and exhibited no anti-Xa activity in any of the assay systems. Preparation 2, prepared by two consecutive heparin affinity chromatography steps, was active in all three assay systems, and was shown to contain antithrombin III (AT III).