Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
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Gene/Protein
Disease
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Target Concepts:
Gene/Protein
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Drug
Enzyme
Compound
Query: EC:3.4.21.5 (
thrombin
)
33,306
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
FVIII is synthesized as a single chain precursor of approximately 280 kD with the domain structure of A1-A2-B-A3-C1-C2 and it circulates as a series of metal ion-linked heterodimers that result from cleavages at B-A3 junction as well as additional cleavages within B domain. Factor VIII is converted to its active form, factor VIIIa, upon proteolytic cleavages by
thrombin
and is a heterotrimer composed of the A1, A2, and A3-C1-C2 subunits. A1 subunits of factor VIIIa terminates with 36 residue segment (Met337-Arg372) rich in acidic residues. This segment is removed after cleavages at Arg336 by activated protein C, which results in inactivation of the cofactor. In the present study, site-directed mutagenesis of FVIII at Arg336 to Gln336 was performed in order to produce an inactivation resistant mutant rFVIII (rFVIIIm) with an extended physiological stability. A recombinant mutant heavy chain of FVIII (rFVIII-Hm; Arg336 to Gln336) and wild-type light chain of FVIII (rFVIII-L) were expressed in Baculovirus-insect cell (Sf9) system, and a biologically active recombinant mutant FVIII (rFVIIIm) was reconstituted from rFVIII-Hm and rFVIII-L in the FVIII-depleted human plasma containing 40 mM CaCl2. The rFVIIIm exhibited cofactor activity of FVIIIa (2.85 x 10(-2) units/mg protein) that sustained the high level activity during in vitro incubation at 37 degrees C for 24 h, while the cofactor activity of normal plasma was declined steadily for the period. These results indicate that rFVIIIm (Arg336 to Gln336) expressed in Baculovirus-insect cell system is inactivation resistant in the plasma coagulation milieu and may be useful for the treatment of
hemophilia A
.
...
PMID:Synthesis of recombinant blood coagulation factor VIII (FVIII) heavy and light chains and reconstitution of active form of FVIII. 1041 Mar 9
By virtue of a severely prolonged aPTT with a normal thromboplastin time (prothrombin time) and a normal
thrombin
time, severe FXII deficiency has been diagnosed in a woman without a bleeding diathesis or a history of thromboembolic complications. A deficiency of a factor of the contact activation system (FXII, prekallikrein, high molecular weight kininogen) is usually diagnosed during routine coagulation tests demonstrating a prolonged aPTT. The severe and partial deficiency of FXII, of prekallikrein or high molecular weight kininogen is not associated with a bleeding tendency. In contrast, severely factor XI deficient subjects may suffer from a mild hemorrhagic diathesis, whereas FVIII deficiency (
hemophilia A
, autoimmune "hemophilia", von Willebrand disease) and FIX deficiency (hemophilia B) are associated with a bleeding tendency of varying severity, depending on the clotting activity of FVIII or FIX, respectively. An isolated prolongation of the aPTT due to a lupus anticoagulant, however, is frequently associated with arterial and/or venous thrombosis. Therefore, in case of a prolongation of the aPTT, its cause has to be determined.
...
PMID:[A patient with isolated prolongation of aPTT without hemorrhagic diathesis anamnesis: severe, hereditary factor XII deficiency]. 1051 21
Factor VII circulates as a single chain inactive zymogen (10 nmol/L) and a trace ( approximately 10-100 pmol/L) circulates as the 2-chain form, factor VIIa. Factor VII and factor VIIa were studied in a coagulation model using plasma concentrations of purified coagulation factors with reactions initiated with relipidated tissue factor (TF). Factor VII (10 nmol/L) extended the lag phase of
thrombin
generation initiated by 100 pmol/L factor VIIa and low TF. With the coagulation inhibitors TFPI and AT-III present, factor VII both extended the lag phase of the reaction and depressed the rate of
thrombin
generation. The inhibition of factor Xa generation by factor VII is consistent with its competition with factor VIIa for TF. Thrombin generation with TF concentrations >100 pmol/L was not inhibited by factor VII. At low tissue factor concentrations (<25 pmol/L)
thrombin
generation becomes sensitive to the absence of factor VIII. In the absence of factor VIII, factor VII significantly inhibits TF-initiated
thrombin
generation by 100 pmol/L factor VIIa. In this
hemophilia A
model, approximately 2 nmol/L factor VIIa is needed to overcome the inhibition of physiologic (10 nmol/L) factor VII. At 10 nmol/L, factor VIIa provided a
thrombin
generation response in the hemophilia model (0% factor VIII, 10 nmol/L factor VII) equivalent to that observed with normal plasma, (100% factor VIII, 10 nmol/L factor VII, 100 pmol/L factor VIIa). These results suggest that the therapeutic efficacy of factor VIIa in the medical treatment of hemophiliacs with inhibitors is, in part, based on overcoming the factor VII inhibitory effect. (Blood. 2000;95:1330-1335)
...
PMID:Inhibition of thrombin generation by the zymogen factor VII: implications for the treatment of hemophilia A by factor VIIa. 1066 7
Factor V (FV) present in platelet alpha-granules has a significant but incompletely understood role in hemostasis. This report demonstrates that a fraction of platelets express very high levels of surface-bound, alpha-granule FV on simultaneous activation with 2 agonists,
thrombin
and convulxin, an activator of the collagen receptor glycoprotein VI. This subpopulation of activated platelets represents 30.7% +/- 4.7% of the total population and is referred to as convulxin and
thrombin
-induced-FV (COAT-FV) platelets. COAT-FV platelets are also observed on activation with
thrombin
plus collagen types I, V, or VI, but not with type III. No single agonist examined was able to produce COAT-FV platelets, although ionophore A23187 in conjunction with either
thrombin
or convulxin did generate this population. COAT-FV platelets bound annexin-V, indicating exposure of aminophospholipids and were enriched in young platelets as identified by the binding of thiazole orange. The functional significance of COAT-FV platelets was investigated by demonstrating that factor Xa preferentially bound to COAT-FV platelets, that COAT-FV platelets had more FV activity than either
thrombin
or A23187-activated platelets, and that COAT-FV platelets were capable of generating more prothrombinase activity than any other physiologic agonist examined. Microparticle production by dual stimulation with
thrombin
and convulxin was less than that observed with A23187, indicating that microparticles were not responsible for all the activities observed. These data demonstrate a new
procoagulant component
produced from dual stimulation of platelets with
thrombin
and collagen. COAT-FV platelets may explain the unique role of alpha-granule FV and the hemostatic effectiveness of young platelets. (Blood. 2000;95:1694-1702)
...
PMID:Surface expression and functional characterization of alpha-granule factor V in human platelets: effects of ionophore A23187, thrombin, collagen, and convulxin. 1068 26
The aim of the study was to evaluate the effect of the protein Seminal Vesicle Protein No. 4 (SV-IV), a potent inhibitor of antithrombin III (antithrombin), on the coagulation of blood obtained from patients affected by
hemophilia A
. In the coagulating blood of these patients, the antithrombin/
thrombin
ratio was found to be markedly higher (about 44) than in normal individuals (about 4. 4). This high ratio was related to the low efficiency of
thrombin
-generating reactions induced by the factor VIII deficiency and to the high levels of free (not bound to serine proteases) antithrombin present in the hemophilic serum (antithrombin concentration was the same in normal and hemophilic plasma). The elevated concentration of free antithrombin in hemophiliacs was primarily a consequence of a reduced consumption caused by the scarce availability in the hemophilic serum of factors Xa and IIa, which are serine proteases possessing strong binding affinity for antithrombin. Addition of SV-IV to coagulating hemophilic blood reduced markedly the serum antithrombin and
thrombin
-antithrombin complexes, normalizing, as a consequence, the clotting time and other coagulation parameters. Similar results were obtained by using appropriate concentration of factor VIII.
...
PMID:Inhibition of antithrombin by protein SV-IV normalizes the coagulation of hemophilic blood. 1072 Jun 29
We have analyzed the properties of anti-factor VIII (FVIII) immunoglobulin (Ig) G recovered by affinity chromatography on FVIII-Sepharose from the IgG fraction of the plasma of healthy individuals and nonresponder patients with
hemophilia A
. Affinity-purified anti-FVIII antibodies were found to neutralize FVIII activity and to bind to FVIII with an affinity similar to that of anti-FVIII IgG that had been affinity-purified from the plasma of inhibitor-positive hemophilia patients and of patients with anti-FVIII autoimmune disease. The antibodies also exhibited patterns of reactivity with
thrombin
-digested FVIII similar to those of FVIII inhibitors and preferentially recognized epitopes located in the light chain of FVIII. These observations suggest that FVIII inhibitors occurring in
hemophilia A
and in patients with anti-FVIII autoimmune disease originate from the expansion of preexisting natural anti-FVIII clones that exhibit FVIII-neutralizing properties.
...
PMID:Antibodies to the FVIII light chain that neutralize FVIII procoagulant activity are present in plasma of nonresponder patients with severe hemophilia A and in normal polyclonal human IgG. 1082 26
We have explored the molecular basis of the clinical therapeutic effect of factor VIIa in
hemophilia A
using empirical reconstituted in vitro
thrombin
generation models. Tissue factor acts as a receptor and activator of preexistent but virtually inactive two-chain plasma factor VIIa. However, most of the factor VII circulates as a single-chain inactive zymogen (10 nM) and a trace (approximately 10-100 pM) circulates in the active two-chain form. Empirical reconstitution (purified factors VIIa, X, IX, VIII, V, prothrombin, and relipidated tissue factor) showed that plasma concentrations of factor VII (10 nM) prolong the initiation phase of
thrombin
generation significantly at low concentrations of tissue factor and 100 pM factor VIIa. Thus, we show for the first time that the zymogen factor VII may have a very significant inhibitory action on
thrombin
generation at physiologic ratios of factor VII to factor VIIa. The inhibition kinetics of factor Xa generation by low concentrations of tissue factor indicate that factor VII inhibits the reaction by competition for the initial binding of factor VIIa to tissue factor. Physiological concentrations of factor VII also inhibit the maximal rate of
thrombin
generation by 100 pM factor VIIa in the absence of factor VIII. Increasing the concentration of factor VIIa to 2 nM in this
hemophilia A
model overcame the inhibition of
thrombin
generation by 10 nM factor VII. Increasing the concentration up to 10 nM factor VIIa in the absence of factor VIII completely normalized the
thrombin
generation profile to that observed in the presence of factor VIII and 10 nM factor VII/100 pM factor VIIa. The levels of factor VIIa that overcome the inhibitory effect of factor VII and that normalize
thrombin
generation in our model are consistent with the observed plasma levels of factor VIIa needed to manage
hemophilia A
. Our data strongly indicate that the therapeutic mechanism of factor VIIa in the medical treatment of hemophiliacs with inhibitors is in large part based on overcoming the inhibitory effect of factor VII on
thrombin
generation.
...
PMID:The regulation of the factor VII-dependent coagulation pathway: rationale for the effectiveness of recombinant factor VIIa in refractory bleeding disorders. 1109 10
To investigate the usefulness of factor VIII (FVIII) knockout mice as an animal model of
hemophilia A
, we characterized the antibody response in FVIII knockout mice to recombinant human FVIII, administered intravenously or subcutaneously with or without adjuvant, and compared results to those in normal mice. Anti-factor VIII antibodies were detected after both intravenous and subcutaneous administration, with the highest titers after subcutaneous administration plus adjuvant. Depending on the administration strategy. knockout mice formed antibodies more rapidly and developed higher titers of inhibitory antibodies (Bethesda) than normal mice, suggesting differences in epitope specificity. Blotting
thrombin
cleavage products separated by gel electrophoresis showed that both strains developed antibodies against the nonfunctional B domain as well as against functional domains of factor VIII. The antibodies were mainly of the IgG1 subclass and resembled type I antibodies in
hemophilia A
.
...
PMID:Characterization of antibodies induced by human factor VIII in a murine knockout model of hemophilia A. 1112 64
A review of the literature suggests that assays accurate for the determination of factor VIII in plasma samples may not necessarily retain this accuracy when used for the determination of factor VIII in high-purity factor VII concentrates such as Hemofil M. Review of assay data suggests that it is imperative to obtain maximal activation of the factor VIII in the sample with
thrombin
when using an assay system of isolated coagulation factors such as the two-stage assay or the various chromogenic substrate assays. Based on a combination of ease and reproducibility of performance and correlation of in vivo and in vitro measurements. it is recommended that the one-stage activated partial thromboplastin time performed with plasma from an individual with severe
hemophilia A
be used for the measurement of factor VIII potency. Chromogenic substrate assays can be used if care is taken to assure optimal activation of factor VIII by
thrombin
in the assay and the presence of sufficient factor IXa, phospholipid and calcium ions to stabilize factor VIIIa during the assay process.
...
PMID:Issues with the assay of factor VIII activity in plasma and factor VIII concentrates. 1168 46
We have examined the technology for an industrial chromatographic production highly purified factor VIII concentrate intended for therapy of the
hemophilia A
and characterized this factor VIII. The final product has been prepared from cryoprecipitate of pooled human plasma using a large-scale procedure combining three conventional chromatographic steps based on AEM and CEM ion exchange and SPG or SHR gel filtration chromatography. The specific activity of the product was 459 +/- 19 IU factor VIII/mg protein (n = 10), corresponding to a purification factor of about 15,000. The concentrate was free of the fibrinogen, alpha-2-macroglobulin, alpha-1-acidglycoprotein, haptoglobin. Only three contaminants could be detected: fibronectin, immunoglobulins A and G (about 0.020, 0.004 and 0.034 microgram/IU factor VIII, respectively). The purity of the final product was confirmed by SDS polyacrylamide gel electrophoresis, cellulose acetate electrophoresis, Grabar-Williams immunoelectrophoresis, and bidimensional immunoelectrophoresis. Another examination was concern to the technology for an industrial chromatographic production highly purified factor IX concentrate intended for therapy of the hemophilia B and characterized this factor IX. The final product has been prepared from pooled human plasma using a large-scale procedure combining four conventional chromatographic steps based on AEM ion exchange, AFM affinity and SGS gel filtration chromatography. The specific activity of the product was 149 +/- 10 IU factor IX/mg protein (n = 10), corresponding to a purification factor of about 9000. The concentrate was free of the vitamin K-dependent clotting factors II, VII and X and of proteins C and S. Most of possible contaminants were absent in this new product. High-molecular-weight kininogen, factor VIII, XI, XII or prekallikrein were not detected. There were no activated factors, such as factors IXa and Xa, no
thrombin
and no phospholipids. Only two contaminants could be detected: C4 and inter-alpha-trypsin inhibitor (about 0.8 and 1.2 mg/IU factor IX, respectively). The purity of the final product was confirmed by SDS polyacrylamide gel electrophoresis, cellulose acetate electrophoresis, Grabar-Williams immunoelectrophoresis, and bidimensional immunoelectrophoresis. Thrombogenicity tests in rabbits revealed that the high purified factor IX by Institute of Biochemistry technology tested had a lower thrombogenic power than the commercial factors IX tested. The concentrate has been subjected to a special solvent--detergent treatment for definite time and temperature during its production to virus inactivation (it will be describe in following special examination). These data demonstrate that a highly purified therapeutic clotting factor VIII and IX concentrates can be prepared from human plasma by conventional chromatographic methods developed by Institute of Biochemistry of NAS of Ukraine and Combio Ltd.
...
PMID:[Blood protein technological industrial developments as a mirror of fundamental studies bgy the Institute of Biochemistry of the Ukrainian National Academy of Sciences]. 1120 Apr 39
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