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Query: EC:3.4.21.6 (
thromboplastin
)
13,278
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Studies of proteins that inhibit tissue factor activity have generally been conducted using either an extracted tissue homogenate ("thromboplastin") or tissue factor protein reconstituted into phospholipid vesicles rather than with tissue factor expressed in cell membranes (its physiological environment). In the present study, a human fibroblast cell strain was used to evaluate the effects of lipoprotein associated coagulation inhibitor (LACI), placental anticoagulant protein (PAP), and
apolipoprotein A-II
(apo A-II) on human tissue factor in cell membranes. LACI was tested from 7.8 to 500 pmol/L on fibroblasts cultured at cell densities ranging from 3,500 to 9,925 cells/well, and caused a progressive inhibition of tissue factor activity. PAP was tested from 3.9 nmol/L to 1 mumol/L at cell densities ranging from 4,500 to 15,400 cells/well and caused up to 83% inhibition of tissue factor activity. Inhibition by these proteins appeared to be influenced by cell density as well as whether the cells were intact or disrupted. Apo A-II, up to 1 mumol/L, did not inhibit the tissue factor activity of intact or disrupted fibroblasts at any cell density examined even though it did inhibit the activity of tissue factor in phospholipid vesicles. Of these inhibitors of tissue factor-dependent activation of factor X, LACI was the most effective in suppressing the generation of
factor Xa
activity. The effects obtained with apo A-II are clearly dependent on the nature of the tissue factor preparation with which it is tested. The disparity between the inhibitory effect of apo A-II on the activity of tissue factor reconstituted into lipid vesicles and the absence of effect on the activity of tissue factor remaining in cell membranes serves to reemphasize the necessity of reexamining results obtained with model systems using as nearly physiological reagents as possible.
...
PMID:Human fibroblast tissue factor is inhibited by lipoprotein-associated coagulation inhibitor and placental anticoagulant protein but not by apolipoprotein A-II. 252 14
The lipoprotein-associated coagulation inhibitor (LACI) has been isolated from human plasma using a combination of hydrophobic, ion-exchange, and affinity chromatography. The final purification required was greater than 500,000-fold with a yield of 13%. Plasma LACI, on sodium dodecyl sulfate-polyacrylamide gel electrophoresis, contains major bands at 40 and 46 kDa and minor bands at 55, 65, 75, 90, and approximately 130 kDa. All of the molecular weight forms are recognized by antibodies to LACI's amino and carboxyl termini and are able to inhibit the factor VII(a)-tissue factor complex and
factor Xa
. Plasma LACI, reduced with beta-mercaptoethanol, migrates on sodium dodecyl-sulfate-polyacrylamide gel electrophoresis as a doublet at 42 kDa and has an amino-terminal sequence essentially identical to that of HepG2 LACI. The difference in size between reduced plasma LACI (42 kDa) and HepG2 LACI (47 kDa) may be related to differing degrees of N-linked glycosylation. The 46-kDa and larger forms of unreduced plasma LACI are associated with
apolipoprotein A-II
(apoA-II) in mixed disulfide linkages. Studies using isolated lipoproteins show that low density lipoprotein (LDL) contains primarily the 40-kDa form of LACI, whereas high density lipoprotein (HDL) contains primarily the 46-kDa form of LACI (LACI/apoA-II complexes). Gel filtration of a fresh plasma sample showed approximately 50% of plasma LACI to be associated with LDL/very low density lipoprotein, 44% with HDL, and the remaining 6% to not be associated with lipoproteins.
...
PMID:Purification and characterization of the lipoprotein-associated coagulation inhibitor from human plasma. 255 22
Factor VIIa participates in blood clotting by activating factor X and/or factor IX by limited proteolysis. The proteolytic activity of factor VIIa is absolutely dependent on a lipoprotein cofactor designated tissue factor. We have examined the ability of purified preparations of human plasma high density, low density and very low density lipoproteins, as well as apolipoproteins A-I and A-II, to inhibit the factor VIIa-tissue factor mediated activation of either factor X or factor IX before and after treatment of the lipoprotein preparation with polyclonal antibody directed against partially-purified human plasma extrinsic pathway inhibitor (EPI). In the absence of anti-EPI IgG, HDL, LDL, VLDL, and
apolipoprotein A-II
noncompetitively inhibited factor X activation by factor VIIa-tissue factor with apparent Ki values of 3.39 mumol/L, 124 nmol/L, 33 nmol/L, and 10.5 mumol/L, respectively. Apolipoprotein A-I had no effect on this reaction. The inhibitory activity of HDL, LDL, VLDL, and
apolipoprotein A-II
in this reaction was unaffected by the presence of high levels of anti-EPI IgG. In the absence of exogenous
factor Xa
, none of the lipoproteins studied inhibited the activation of factor IX using the tritiated peptide release assay. In the presence of added
factor Xa
(1 nmol/L), LDL and VLDL, but not HDL and
apolipoprotein A-II
, inhibited the activation of factor IX by factor VIIa-tissue factor. This inhibition was completely blocked by prior incubation of the lipoprotein with anti-EPI IgG indicating association of EPI with these particles. Taken collectively, our data indicate that HDL, LDL, and VLDL, at or below their plasma concentration, each selectively inhibits the factor VIIa-tissue factor mediated activation of factor X by a mechanism that appears to be distinct from extrinsic pathway inhibitor. These lipoproteins may not only play a role in the regulation of extrinsic blood coagulation, but may also selectively promote the activation of factor IX by factor VIIa-tissue factor in vivo at low tissue factor concentrations.
...
PMID:Evidence that plasma lipoproteins inhibit the factor VIIa-tissue factor complex by a different mechanism that extrinsic pathway inhibitor. 331 45
High, low and very low density lipoproteins and lipoprotein (a) were prepared from porcine serum. The apolipoprotein components of the lipoproteins were then isolated and resuspended in soybean lecithin. Apolipoprotein B was also resuspended in lipids more representative of those found in LDL and VLDL. Lipid peroxidation was induced in samples of all the lipoproteins and reconstituted apolipoproteins by incubation with either Cu2+ ions or hedgehog 15-lipoxygenase. Furthermore, aliquots of the samples were incubated with a mixture of lipases. The effect of native preparations and the treated samples on the procoagulant activity of
thromboplastin
was examined. Native HDL, apo A-II, native LDL, reconstituted LDL and apo B inhibited
thromboplastin
activity, whereas native VLDL and reconstituted VLDL enhanced this activity. While the ability of HDL and
apolipoprotein A-II
to inhibit
thromboplastin
was unaltered by either Cu2+ oxidation, lipoxygenase oxidation or lipolysis, VLDL and particles resembling VLDL, which acted cooperatively with
thromboplastin
lost their activating potential. On the other hand, LDL and particles resembling LDL changed from being inhibitory to enhancing the
thromboplastin
activity following oxidation, but not after lipolysis. Apolipoprotein B fragments obtained by mild digestion of this protein, expressed an inhibitory effect towards
thromboplastin
, while extensive degradation of the protein reduced its inhibitory potential. It is suggested that modifications of lipoproteins in vivo can lead to a hypercoagulable state by modulation of the cofactor activity of
thromboplastin
to factor VII.
...
PMID:The effect of lipid peroxidation and lipolysis on the ability of lipoproteins to influence thromboplastin activity. 759 77
