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Query: EC:3.4.21.69 (
APC
)
16,337
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
To study the effect of the severe loss of hepatic synthetic function on the inhibitors of coagulation we have measured
protein S
(total and free),
protein C
, heparin cofactor II and antithrombin III in 30 patients with fulminant hepatic failure. The results showed severe reduction in all inhibitor levels with mean (+/- SE) values of:
protein S
, 0.26 +/- 0.03 U/ml;
protein C
, 0.26 +/- 0.03 U/ml; heparin cofactor II, 0.12 +/- 0.02 U/ml and antithrombin III, 0.21 +/- 0.02 U/ml. Heparin cofactor II was significantly lower than the other inhibitors (P less than 0.01). Although the reduction in free
protein S
was significant in fulminant hepatic failure as compared to normal subjects (0.40 +/- 0.05 U/ml compared to 1.02 +/- 0.08 U/ml, P less than 0.001), the ratio of free to total
protein S
was significantly increased (0.67 +/- 0.02 compared to 0.40 +/- 0.04, P less than 0.01). Prothrombin time (INR) was significantly inversely correlated with total
protein S
(r = -0.56, P less than 0.001) and free
protein S
(r = -0.48, P less than 0.01), but not with the ratio of free to total
protein S
. No significant correlation between the different coagulation inhibitors and other measures of hepatic function could be detected. Although the loss of hepatic synthetic function appears to be the major cause of the loss of coagulation inhibitors, other effects such as increased consumption and rate of clearance may play a role. The balance of these will be reflected in the circulating levels of the coagulation inhibitors.
...
PMID:Physiological inhibitors of coagulation in fulminant hepatic failure. 164 1
The inactivation of factor Va by the natural anticoagulant,
activated protein C
(
APC
) is subject to a number of regulatory mechanisms. This report examines the efficacy of
APC
in plasma and evaluates the role of the
APC
cofactor
protein S
in this milieu. The ability of
protein S
to enhance the anticoagulant effects of
activated protein C
was demonstrated using a factor Xa recalcification time of Al(OH)3 adsorbed plasma. At a set concentration of
APC
, increasing concentrations of
protein S
resulted in a linear and saturable potentiation of the activity of
APC
. This result was not reflected in a purified component assay, where the extent of factor Va inactivation by
APC
was only marginally augmented by
protein S
. The efficacy of the cofactor was not affected by variations in the concentration of factor Va. Similarly, increasing the
protein S
:
APC
molar ratio of 200:1 resulted in only a trivial enhancement of
APC
activity. To directly examine the proteolysis of factor Va by
APC
in plasma, a novel assay system containing Al(OH)3 adsorbed, factor V deficient plasma supplemented with purified human factor Va was developed. The addition of
APC
in varying concentrations to this system consistently yielded factor Va inactivation rates inferior to those seen in a purified component assay. This finding is consistent with the presence of
APC
inhibitory activity in plasma. When
protein S
was added to the plasma system, factor Va inactivation by
APC
was restored to a similar level to that observed in the purified system.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Protein S negates the activated protein C inhibitory activity of plasma. 164 2
Inherited defects of antithrombin III,
protein C
,
protein S
, heparin cofactor II, plasminogen and the fibrinogens are thought to be responsible for between 10 and 15% of all patients presenting with recurrent venous thrombosis. The structure, function and expression of these genes and the nature of the gene lesions underlying the deficiency states are reviewed in detail.
...
PMID:The molecular genetics of familial venous thrombosis. 167 36
Vitamin K-dependent protein S is an anticoagulant plasma protein functioning as a cofactor to
activated protein C
in the degradation of coagulation factors Va and VIIIa. To determine which regions in
protein S
are important for its cofactor activity, we have raised and characterized a large panel of monoclonal antibodies against human
protein S
. Several of the antibodies were directed against Ca2(+)-dependent epitopes, and they were found to be located either in the domain containing gamma-carboxyglutamic acid (Gla), the thrombin-sensitive region, or in the first epidermal growth factor (EGF)-like domain. The first two types of epitopes were exposed at approximately 1 mM Ca2+, whereas the epitope(s) in the EGF-like domains required less than 1 microM Ca2+, suggesting the presence of one or more high affinity Ca2(+)-binding site(s). The antibodies, as well as their Fab' fragments, against all three types of Ca2(+)-dependent epitopes efficiently inhibited the
activated protein C
cofactor function of
protein S
, but through different mechanisms. The antibodies against the Gla domain exerted their effects through inhibition of
protein S
binding to negatively charged phospholipid. Fab'-fragments of antibodies against the thrombin-sensitive region and the first EGF-like domain were the most potent inhibitors of the
activated protein C
cofactor function but did not inhibit phospholipid binding of
protein S
. In conclusion, we have identified the domains in
protein S
that are important for the
activated protein C
cofactor activity. The Gla domain is instrumental in the binding of
protein S
to phospholipid, whereas the thrombin-sensitive region and the first EGF-like domain may be directly involved in protein-protein interactions on the phospholipid surface.
...
PMID:Characterization of functionally important domains in human vitamin K-dependent protein S using monoclonal antibodies. 169 22
To explore mechanisms of coagulation activation in adenocarcinoma of the prostate, the occurrence and distribution of components of coagulation and fibrinolysis pathways in situ were studied by means of immunohistochemical techniques applied to frozen sections of fresh malignant and benign hyperplastic prostatic tissue obtained at transurethral resection. Fibrinogen was distributed throughout the perivascular and tumor connective tissue in both malignant and benign disease but was not present in adjacent areas of normal prostate. Antibodies specific for fibrin and D-dimer crosslink sites stained vascular endothelium focally in both malignant and benign tissues. Both neoplastic cells and benign hyperplastic glandular epithelial cells stained weakly and in a patchy distribution for tissue factor and focally for low-molecular-weight urokinase-type plasminogen activator. Focal staining of vascular endothelium was also observed for tissue plasminogen activator and plasmin-antiplasmin complex neoantigen. By contrast, no tissue staining was observed for factor VII, factor X, factor XIII "a" subunit, high-molecular-weight urokinase-type plasminogen activator, plasminogen activator inhibitors 1 to 3,
protein C
, and
protein S
. Thus, the similarity in findings between benign hyperplastic and neoplastic prostate tissue, the lack of either an intact tumor cell-associated coagulation pathway or fibrin formation, and the presence of fibrin on vascular endothelium are consistent with the concept that coagulation activation in prostatic cancer may not be due to a direct effect of the tumor cells on the clotting mechanism. Rather, such activation may be induced by a soluble tumor product that activates procoagulant activity on certain host (for example, vascular endothelial) cells. These findings, together with the lack of effect of warfarin anticoagulation on the clinical course of patients with prostatic cancer, contrast with findings in certain other tumor types and suggest that coagulation activation may not contribute to progression of adenocarcinoma of the prostate.
...
PMID:Fibrin formation on vessel walls in hyperplastic and malignant prostate tissue. 170 19
A murine monoclonal antibody (designated VII-M31) directed against bovine factor VII was prepared and characterized. Antibody VII-M31 inhibited the activations of both factors IX and X catalyzed by factor VIIa in the presence of tissue factor, phospholipids, and Ca2+. It possessed a strong affinity for factor VII in the presence of 5 mM Ca2+ (Kd = 1.12 x 10(-10)M). The immunoblotting test of other bovine proteins with the antibody, such as prothrombin, factor X, factor IX,
protein C
,
protein S
, and protein Z, in addition to human factor VII, revealed that it recognizes only a Ca2(+)-dependent epitope in bovine factor VII. Furthermore, this antibody VII-M31 covalently coupled with Affi-Gel allowed a simple and rapid purification of bovine factor VII. To localize the antigenic site in factor VII, various segments including a gamma-carboxyglutamic acid (Gla)-domainless protein, a Gla-domain peptide and the fragments isolated from the lysyl endopeptidase digest, were prepared. Among them, the isolated Gla-domain peptide and Gla-domainless factor VII were no longer recognized by antibody VII-M31, indicating that the sequence around the cleavage site by a-chymotrypsin is required for the interaction between the antibody and factor VII. In accordance with this result, the antibody bound specifically to a Gla-containing peptide corresponding to the NH2-terminal 23-50 residues of factor VII, which contains the chymotryptic cleavage site. These results suggest that the specific epitope of this antibody is localized in the carboxy-terminal 28 residues of the Gla-domain constituting the amino-terminal portion of bovine factor VII.
...
PMID:Monoclonal antibody (VII-M31) to bovine factor VII: a specific epitope in the gamma-carboxyglutamic acid domain. 170 45
Patients with systemic lupus erythematosus (SLE) have an increased risk of thrombosis and this is increased in the presence of antiphospholipid antibodies (APA). These APA are also associated with thrombosis in patients who do not have SLE. We compared haemostatic parameters in SLE patients with and without APA, and also compared patients who had APA but not SLE with healthy normal controls. No relationships between the natural anticoagulants, antithrombin III, heparin cofactor II,
protein C
and
protein S
, and the presence of APA were found. In the patients with SLE both tissue plasminogen activator antigen and plasminogen activator inhibitor (PAI) were increased, but these changes were not due to APA which had no effect on fibrinolysis in these patients. In the patients with APA who did not have SLE the fibrinolytic response to venous occlusion was reduced due to raised levels of PAI; similar changes have, however, been reported in some patients with idiopathic thrombosis.
...
PMID:The fibrinolytic response to venous occlusion and the natural anticoagulants in patients with antiphospholipid antibodies both with and without systemic lupus erythematosus. 170 91
By monitoring the activation of
protein C
and the regulation of factor Xa-catalyzed thrombin formation by the
activated protein C
(
APC
) on the surface of human umbilical vein endothelial cells (HUVEC), we found that functional
protein C
was synthesized in cultured HUVEC and expressed thereon in the presence of vitamin K. Furthermore, without exogenously added
protein S
, time-dependent and saturable accumulation of
APC
(20 fmol
APC
/10(5) cells) on the surface of HUVEC was observed. During prothrombin activation by the complex of membrane-bound factor Xa and endogenous factor Va formed on the surface of HUVEC,
APC
was generated, and the rate of thrombin formation decreased. Treatment of HUVEC with an antibody that inhibits the
APC
-catalyzed inactivation of endogenous factor Va clearly quenched the activity of surface-associated
APC
. Immunostaining of HUVEC with a horseradish peroxidase (HRP)-conjugated antibody that solely recognizes human
protein C
confirmed the presence of
protein C
on the surface of HUVEC. Northern blot analysis revealed that an about 1.8 kb mRNA species derived from HUVEC was hybridized with 32P-labeled
protein C
cDNA, as in the case of those from HepG2, which are known to synthesize normal
protein C
. The increase in the amount of
protein C
mRNA in HUVEC in parallel with cell growth provided supporting evidence for the synthesis of
protein C
during the culture of HUVEC. These results indicate that blood coagulation is regulated by endogenously generated and
activated protein C
, together with or without
protein S
, through inactivation of factor Va on the surface of endothelial cells.
...
PMID:Synthesis of protein C in human umbilical vein endothelial cells. 171 50
Activated
protein C
(APC) exerts its physiologic anticoagulant role by proteolytic inactivation of the blood coagulation cofactors Va and VIIIa. To identify the regions on the surface that mediate anticoagulant activity, 26 synthetic peptides were prepared representing 90% of the human
protein C
heavy chain primary structure and tested for their ability to inhibit APC anticoagulant activity. Peptide-(390-404) specifically inhibited APC activity in activated partial thromboplastin time and Xa-1-stage coagulation assays in normal, in
protein S
-depleted and Factor VIII-deficient plasma with 50% inhibition at 5 microM peptide. Polyclonal antibodies raised against this peptide and immunoaffinity-purified on a
protein C
-Sepharose column inhibited APC anticoagulant activity in activated partial thromboplastin time and Xa-1-stage assays in normal,
protein S
-depleted, and Factor VIII-deficient plasma with half-maximal inhibition at 30 nM anti-(390-404) antibody. Neither the peptide-(390-404) nor the anti-(390-404) antibodies inhibited APC amidolytic activity or the reaction of APC with recombinant [Arg358] alpha 1-antitrypsin. Furthermore, in a purified system, peptide-(390-404) inhibited APC-catalyzed inactivation of Factor Va in the presence as well as in the absence of phospholipids with 50% inhibition at 4 microM peptide. These data suggest that the region containing residues 390-404 in APC is essential for anticoagulant activity and is available to interact with antibodies or with other proteins such as the macromolecular substrates Factors Va or VIIIa.
...
PMID:Identification of a sequence of human activated protein C (residues 390-404) essential for its anticoagulant activity. 176 51
Tremendous progress have been performed during the last 25 years in thrombosis. Thrombotic disease can result either from increased deposition or decreased dissolution of fibrin. Since the first observation of a familial antithrombin III deficiency, numerous inherited defects of antithrombotin III,
protein C
,
protein S
, heparin cofactor II and plasminogen have been described and were assumed to be responsible of a thrombophilic state. However a disparity in the clinical expression of heterozygous deficiency in coagulation inhibitors or molecular abnormalities of coagulation does exist. On one hand, the prevalence of such molecular diseases is not yet perfectly known and on the other hand, contributory factors (acquired environmental insults or other genetic abnormalities) could play a role in individuals already predisposed to thrombosis. The molecular genetics of deficiencies is going to help us to establish specific gene lesions and thromboembolic history relationships. The analysis of structural or regulatory mutations in the genes of the different coagulation inhibitors, of the molecules of the fibrinolytic system, and of the fibrinogen molecule will greatly increase our knowledge of the molecular basis of thrombosis. The influence of the genetic polymorphism of these molecules on the risk of thrombosis should be studied. Finally, cellular aspects of thrombosis including the role of blood cells and endothelial cells will bring lot of informations on the comprehension of thrombotic diseases.
...
PMID:[Molecular basis of thrombosis]. 176 58
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