Pharmacokinetics and anticoagulant properties of the factor VIIa-tissue factor inhibitor recombinant Nematode Anticoagulant Protein c2 following subcutaneous administration in man. Dependence on the stoichiometric binding to circulating factor X.

Recombinant Nematode Anticoagulant Protein c2 (rNAPc2) is a potent (K(i) =10 pM), inhibitor of the factor VIIa/tissue factor (fVIIa/TF) complex that requires the prerequisite binding to zymogen or activated factor X (fX). In two double blind, place-bo-controlled, sequential dose-escalation phase I studies, rNAPc2 was found to be safe and well tolerated following single and repeat subcutaneous administrations in healthy human male volunteers at doses ranging from 0.3 to 5 micro g/kg.

Nematode anticoagulant protein c2 reveals a site on factor Xa that is important for macromolecular substrate binding to human prothrombinase.

The binding of recombinant nematode anticoagulant protein c2 (NAPc2) to either factor X or Xa is a requisite step in the pathway for the potent inhibition of VIIa tissue factor. We have used NAPc2 as a tight binding probe of human Xa to investigate protein substrate recognition by the human prothrombinase complex. NAPc2 binds with high affinity (K(d) approximately 1 nm) to both X and Xa in a way that does not require or occlude the active site of the enzyme.

Role of zymogen and activated factor X as scaffolds for the inhibition of the blood coagulation factor VIIa-tissue factor complex by recombinant nematode anticoagulant protein c2.

Recombinant nematode anticoagulant protein c2 (rNAPc2) is a potent, factor Xa (fXa)-dependent small protein inhibitor of factor VIIa-tissue factor (fVIIa.TF), which binds to a site on fXa that is distinct from the catalytic center (exo-site). In the present study, the role of other fX derivatives in presenting rNAPc2 to fVIIa.

Guanylpiperidine peptidomimetics: potent and selective bis-cation inhibitors of factor Xa.

A novel series of rigid P3-guanylpiperidine peptide mimics 3-14 was designed as potential factor Xa and prothrombinase inhibitors. Incorporation into a P2-gly-P1-argininal motif led to highly potent and selective inhibitors. The synthesis and biological activities of these derivatives are reported herein.

Novel benzo-fused lactam scaffolds as factor Xa inhibitors.

Rigid benzolactam P3-P2 dipeptide mimics were designed and prepared as potential inhibitors of blood coagulation factor Xa. Methoxy substitution of the tetrahydrobenzazepinone scaffold led to potent and selective inhibitors. The synthesis and biological activities of these derivatives are reported herein.

Selective inhibition of the prothrombinase complex: factor Va alters macromolecular recognition of a tick anticoagulant peptide mutant by factor Xa.

The prothrombinase complex assembles through reversible interactions between the protease, factor Xa, the cofactor, factor Va, and acidic phospholipid membranes in the presence of calcium ions. Changes in macromolecular recognition by factor Xa which may result from its interaction with factor Va in the prothrombinase complex have been probed using a recombinant derivative of tick anticoagulant peptide where Arg3 has been replaced with Ala (R3A-TAP). In contrast to the wild type inhibitor, R3A-TAP was a weak competitive inhibitor of factor Xa (Ki = 794 nM).

Isolation and characterization of the tsetse thrombin inhibitor: a potent antithrombotic peptide from the saliva of Glossina morsitans morsitans.

A potent and specific inhibitor of the human coagulation protease thrombin was identified in salivary gland extracts of the tsetse fly, Glossina morsitans morsitans, an important vector of African trypanosomiasis. This low molecular weight peptide (MW = 3,530 Da as determined by laser desorption mass spectrometry) was purified using a combination of size-exclusion chromatography and reverse-phase, high-performance liquid chromatography, respectively. Amino terminal sequencing of the purified protein reveals no homology to any previously identified serine protease inhibitor or naturally occurring anticoagulant.

Anticoagulant repertoire of the hookworm Ancylostoma caninum.

Hookworms are hematophagous nematodes that infect a wide range of mammalian hosts, including humans. There has been speculation for nearly a century as to the identity of the anticoagulant substances) used by these organisms to subvert host hemostasis. Using molecular cloning, we describe a family of potent small protein (75-84 amino acids) anticoagulants from the hookworm Ancylostoma caninum termed AcAP (A.

Synthesis, structure, and structure-activity relationships of divalent thrombin inhibitors containing an alpha-keto-amide transition-state mimetic.

A new class of divalent thrombin inhibitors is described that contains an alpha-keto-amide transition-state mimetic linking an active site binding group and a group that binds to the fibrinogen-binding exosite. The X-ray crystallographic structure of the most potent member of this new class, CVS995, shows many features in common with other divalent thrombin inhibitors and clearly defines the transition-state-like binding of the alpha-keto-amide group. The structure of the active site part of the inhibitor shows a network of water molecules connecting both the side-chain and backbone atoms of thrombin and the inhibitor.

Crystallographic structure of a peptidyl keto acid inhibitor and human alpha-thrombin.

The low molecular weight alpha-keto amide inhibitor CVS-1347, benzyl-SO2-Met(O2)-Pro-Arg(CO)((CONH)CH2)-phenyl, is a slow, tight binding inhibitor of alpha-thrombin amidolytic activity having a Ki = 1.28 x 10(-10) M. A complex between human alpha-thrombin and a hydrolysis product of CVS-1347 has been determined and refined using crystallography.

Ancylostoma caninum anticoagulant peptide: a hookworm-derived inhibitor of human coagulation factor Xa.

Human hookworm infection is a major cause of gastrointestinal blood loss and iron deficiency anemia, affecting up to one billion people in the developing world. These soil-transmitted helminths cause blood loss during attachment to the intestinal mucosa by lacerating capillaries and ingesting extravasated blood. We have isolated the major anticoagulant used by adult worms to facilitate feeding and exacerbate intestinal blood loss.

Assembly of the prothrombinase complex enhances the inhibition of bovine factor Xa by tick anticoagulant peptide.

The interaction of factor Xa with factor Va on a membrane surface results in the assembly of the prothrombinase complex. The highly specific and multistep interaction between recombinant tick anticoagulant peptide (rTAP) and factor Xa was used to probe perturbations in the macromolecular interaction sites of factor Xa that accompany prothrombinase assembly. Steady-state kinetic studies indicated that the incorporation of factor Xa into prothrombinase resulted in a modest 3-fold increase in the rate constant for inhibition by rTAP.

Vampire bat salivary plasminogen activator exhibits a strict and fastidious requirement for polymeric fibrin as its cofactor, unlike human tissue-type plasminogen activator. A kinetic analysis.

The vampire bat salivary plasminogen activator (BatPA) is virtually inactive toward Glu-plasminogen in the absence of a fibrin-like cofactor, unlike human tissue-type plasminogen activator (tPA) (the kcat/Km values were 4 and 470 M-1 s-1, respectively). In the presence of fibrin II, tPA and BatPA activated Glu-plasminogen with comparable catalytic efficiencies (158,000 and 174,000 M-1 s-1, respectively). BatPA's cofactor requirement was partially satisfied by polymeric fibrin I (54,000 M-1 s-1), but monomeric fibrin I was virtually ineffective (970 M-1 s-1).

Vampire bat salivary plasminogen activator is quiescent in human plasma in the absence of fibrin unlike human tissue plasminogen activator.

The vampire bat salivary plasminogen activator (Bat-PA) is a potent PA that exhibits remarkable selectivity toward fibrin-bound plasminogen (Gardell et al, J Biol Chem 256: 3568, 1989). Herein, we describe the activity of recombinant DNA-derived Bat-PA (rBat-PA) in a human plasma milieu. rBat-PA and recombinant human single-chain tissue plasminogen activator (rt-PA) are similarly efficacious at lysing plasma clots.

Construction of a tissue plasminogen activator gene having unique restriction sites to facilitate domain manipulation: a model for the analysis of multi-domain proteins.

We have designed and constructed a DNA sequence encoding human tissue plasminogen activator (tPA) with convenient restriction sites that flank each of the domains of the heavy chain. To accomplish this, the first 1095 bases of the gene coding for the mature protein were synthesized with unique restriction sites engineered into the interdomainal regions. This synthetic construction was then ligated to a cDNA fragment of the tPA gene that encoded the active site, thus generating a full-length tPA gene.

Neutralization by plasminogen activator inhibitor-1 of mutants of tissue plasminogen activator.

Deletion mutants of human tissue plasminogen activator (tPA) were expressed in Chinese hamster ovary cells. These cells had been transfected with genes that encoded tPA but included restriction sites that allowed the deletion of DNA encoding specific structural domains of the tPA molecule's heavy chain. Purified, two-chain mutant tPAs, or analogues of tPA, lacking one or several structural domains, along with Bowes melanoma tPA were studied in order to determine their susceptibility to inhibition by plasminogen activator inhibitor-1 (PAI-1).

Lack of pathogenetic role of proteins C and S in thrombosis associated with asparaginase-prednisone-vincristine therapy for leukaemia.

Plasma levels of protein C and protein S antigens were measured in eight children who developed thrombosis following asparaginase-prednisone-vincristine treatment for acute lymphoblastic leukaemia and in nine similarly treated children without this complication. Protein C antigen levels were below normal in three of the eight patients with thrombosis and in three of the nine patients without the complication (P = 0.38).

Radioimmunoassays for protein C and factor X. Plasma antigen levels in abnormal hemostatic states.

Specific radioimmunoassays, sensitive to plasma levels of less than 1% of normal, were developed for protein C and Factor X. In 31 normal subjects, mean plasma antigen levels were as follows: protein C, 3.23 +/- 0.

The labeling of rabbit neutrophils with [111In]oxine.

We report here the successful labeling of rabbit peripheral blood neutrophils with [111In]oxine. We found that standard techniques for preparation of rabbit neutrophils, while acceptable for maintenance of in vitro function, rendered the neutrophils ineffective for in vivo use after labeling with 111In. Specifically, rabbit neutrophils were sensitive to the use of hypotonic shock for red cell elimination, centrifugation into a button during preparation, and the presence of oxine during chemotaxis in vitro.