George Broze - Academia.edu (original) (raw)
Papers by George Broze
Protein Z (PZ) is a plasma vitamin K- dependent protein that functions as a cofactor to dramatica... more Protein Z (PZ) is a plasma vitamin K- dependent protein that functions as a cofactor to dramatically enhance the inhi- bition of coagulation factor Xa by the serpin, protein Z-dependent protease inhibitor (ZPI). In vitro, ZPI not only inhibits factor Xa in a calcium ion-, phospholipid-, and PZ-dependent fash- ion, but also directly inhibits coagulation factor XIa. In murine gene-deletion
Protein Z (PZ) is a plasma vitamin K- dependent protein that functions as a cofactor to dramatica... more Protein Z (PZ) is a plasma vitamin K- dependent protein that functions as a cofactor to dramatically enhance the inhi- bition of coagulation factor Xa by the serpin, protein Z-dependent protease inhibitor (ZPI). In vitro, ZPI not only inhibits factor Xa in a calcium ion-, phospholipid-, and PZ-dependent fash- ion, but also directly inhibits coagulation factor XIa. In murine gene-deletion
Thrombosis and Haemostasis, Jul 1, 1995
Thrombosis and Haemostasis, 2010
To assess the potential roles of protein Z (PZ) and protein Z-dependent protease inhibitor (ZPI) ... more To assess the potential roles of protein Z (PZ) and protein Z-dependent protease inhibitor (ZPI) in venous thrombosis, their plasma levels were measured in 426 individuals with venous thrombosis and 471 control individuals participating in the Leiden Thrombophilia Study. A relationship between the level of PZ or ZPI and venous thrombosis was not detected in the overall case-control study. PZ and ZPI circulate as a complex and their plasma levels are interdependent. Both PZ and ZPI are increased with oral contraceptive use and reduced with oral anticoagulant therapy.
Thrombosis and Haemostasis, Jun 1, 2001
Protein Z-dependent protease inhibitor (ZPI) is plasma proteinase inhibitor in the serpin superfa... more Protein Z-dependent protease inhibitor (ZPI) is plasma proteinase inhibitor in the serpin superfamily that produces rapid inhibition of factor Xa in the presence of phospholipids, Ca++ and protein Z (PZ). Mouse ZPI cDNA was isolated and cloned from mouse liver RNA using RT-PCR. The cDNA contains 100 nucleotides 5' of a translation initiation codon and an open reading frame of 1344 nucleotides followed by a 163 nucleotide 3' untranslated sequence with a poly (A) tail. The cDNA predicts a signal peptide containing 21 amino acids and a mature protein of 427 residues with 8 potential sites for N-linked glycosylation. The oligonucleotide and predicted amino acid sequences of mouse ZPI are 72% and 81% homologous with those of human ZPI. Like human ZPI, mouse ZPI contains tyrosine-serine (P1-P1') at its reactive center in contrast to the rat molecule which contains tyrosine-cysteine. By Northern analysis, mouse ZPI mRNA is 1.6 kb in size and, similar to both human and rat, it is detectable in liver, but not in heart, brain, spleen, lung, kidney, skeletal muscle or testes.
Blood, 2010
ABSTRACT Protein S (PS) enhances the inhibition of factor Xa (FXa) by tissue factor pathway inhib... more ABSTRACT Protein S (PS) enhances the inhibition of factor Xa (FXa) by tissue factor pathway inhibitor-alpha (TFPI-alpha) in the presence of Ca(2+) and phospholipids. Altered forms of recombinant TFPI-alpha were used to determine the structures within TFPI-alpha that may be involved in this PS-dependent effect. Wild-type TFPI-alpha (TFPI(WT)), TFPI-alpha lacking the K3 domain (TFPI-(DeltaK3)), and TFPI-alpha containing a single amino acid change at the putative P1 residue of K3 (R199L, TFPI(K3P1)) produced equivalent FXa inhibition in the absence of PS, whereas the response in FXa inhibition produced by PS was reduced with TFPI(K3P1) (EC(50) 61.8 +/- 13.4nM vs 8.0 +/- 0.4nM for TFPI(WT)) and not detectable with TFPI-(DeltaK3). Ligand blotting and surface plasmon resonance experiments demonstrated that FXa bound TFPI(WT) and TFPI-(DeltaK3) but not the isolated K3 domain, whereas PS bound TFPI(WT) and the K3 domain but not TFPI-(DeltaK3). Addition of TFPI(WT), TFPI(K3P1), or TFPI-(DeltaK3) produced comparable prolongation of FXa-induced coagulation in PS-deficient plasma, but the anticoagulant effect of TFPI(WT) was substantially greater than that of TFPI(K3P1) > TFPI-(DeltaK3) in normal plasma and PS-deficient plasma reconstituted with PS. We conclude that the PS-mediated enhancement of FXa inhibition by TFPI-alpha involves an interaction between PS and TFPI-alpha, which requires the K3 domain of TFPI-alpha.
Blood, Nov 15, 1996
Coagulation is initiated by the binding of factor VIIa to tissue factor, with resultant limited f... more Coagulation is initiated by the binding of factor VIIa to tissue factor, with resultant limited factor IX and X activation and thrombin production. Owing to the feedback inhibition of the factor VIIa/tissue factor complex by tissue factor pathway inhibitor (TFPI), additional factor X activation and thrombin generation must proceed through a pathway involving factors VIII, IX, and XI. Experiments designed to elucidate the requirement for amplified factor Xa and thrombin generation in normal hemostasis show that the resistance of plasma clots to tissue plasminogen activator (tPA)- and urokinase-induced fibrinolysis is related to the extent of thrombin generation. Inhibition of fibrinolysis is mediated in part by plasma carboxypeptidase-U ([CPU] carboxypeptidase-R, procarboxypeptidase-B, thrombin-activatable fibrinolysis inhibitor), a proenzyme that is proteolytically activated by thrombin in a process enhanced dramatically by the cofactor thrombomodulin. A clot induced in factor IX-deficient plasma with limited amounts of tissue factor in the presence of urokinase (100 U/mL) lyses prematurely, and this defect is corrected by supplementation of the deficient plasma with factor IX (5 micrograms/mL) or thrombomodulin (20 ng/mL). These additions enhance the rate and extent of CPU activation: in the case of factor IX, presumably by permitting amplified generation of factor Xa and thrombin, and in the case of thrombomodulin, presumably by increasing the degree of CPU activation produced by the low levels of thrombin generated in the absence of factor IX. Pretreatment of the factor IX-deficient plasma with specific anti-CPU antibodies prevents the increased resistance to fibrinolysis produced by addition of factor IX and thrombomodulin. Likewise, when coagulation is induced by thrombin (2 U/mL) in the presence of tPA (60 U/mL), clots formed from plasmas deficient in factors VIII, IX, X, or XI lyse prematurely unless the missing factor is replaced or thrombomodulin (20 ng/mL) is added.
J Biol Chem, 1995
Tissue factor pathway inhibitor (TFPI) is a potent inhibitor of the blood coagulation factor VIIa... more Tissue factor pathway inhibitor (TFPI) is a potent inhibitor of the blood coagulation factor VIIa-tissue factor complex, as well as a direct inhibitor of factor Xa. Intravenously administered TFPI is rapidly cleared from circulation predominantly via liver. We previously reported that the low density lipoprotein receptor-related protein (LRP), a multifunctional endocytic receptor, mediates the uptake and degradation of TFPI in hepatoma cells. This process is inhibited by a 39-kDa receptor-associated protein which binds to LRP and regulates its ligand binding activity. However, a distinct, low affinity binding site (perhaps heparin sulfate proteoglycans, HSPGs) on the endothelium and liver is thought to be responsible for the majority of TFPI cell surface binding. In the current study, we investigated the role of LRP and this second binding site in the clearance of 125I-TFPI in vivo using competitors and inhibitors of the receptors. Mice overexpressing the 39-kDa protein via adenoviral-mediated gene transfer displayed diminished plasma clearance of 125I-TFPI. Blockade of cell surface HSPGs sites by incubation with the positively charged molecule, protamine, inhibited 125I-TFPI binding to the hepatoma cells in vitro. In addition, preadministration of protamine in vivo prolonged the plasma clearance of 125I-TFPI in a dose-dependent manner. However, a dramatic increase of the plasma half-life of 125I-TFPI and virtual elimination of 125I-TFPI clearance was observed in mice overexpressing the 39-kDa protein and administered protamine. Taken together, our results suggest that two receptor mechanisms are involved in the clearance of TFPI in vivo.
The Journal of Clinical Investigation, 1995
Nucleic Acids Research, Dec 1, 1990
The Journal of Clinical Investigation, 2002
Science, Jun 1, 1990
An inhibitor of coagulation factor XIa was purified from serum-free conditioned medium of HepG2 l... more An inhibitor of coagulation factor XIa was purified from serum-free conditioned medium of HepG2 liver cells. Platelets stimulated with thrombin or calcium ionophore (A23187) secrete a protein functionally and immunologically identical to the inhibitor, implying a role for this inhibitor in hemostasis. Analysis of the amino-terminal amino acid sequence and immunologic reactivity showed the inhibitor to be a truncated form of the Alzheimer's amyloid precursor protein that contains a Kunitz-type serine protease inhibitor domain and at least a portion of the amyloid beta protein. It inhibits factor XIa and trypsin with a Ki of 450 +/- 50 pM and 20 +/- 10 pM, respectively. Heparin (1 unit/ml) did not significantly effect inhibition of trypsin, but inhibition of XIa was 15 times greater (Ki = 25 +/- 15 pM) in the presence of heparin.
Frontiers in Bioscience, 2012
TFPI is a multivalent, Kunitz-type proteinase inhibitor, which, due to alternative mRNA splicing,... more TFPI is a multivalent, Kunitz-type proteinase inhibitor, which, due to alternative mRNA splicing, is transcribed in three isoforms: TFPIalpha, TFPIdelta, and glycosyl phosphatidyl inositol (GPI)-anchored TFPIbeta. The microvascular endothelium is thought to be the principal source of TFPI and TFPIalpha is the predominant isoform expressed in humans. TFPIalpha, apparently attached to the surface of the endothelium in an indirect GPI-anchor-dependent fashion, represents the greatest in vivo reservoir of TFPI. The Kunitz-2 domain of TFPI is responsible for factor Xa inhibition and the Kunitz-1 domain is responsible for factor Xa-dependent inhibition of the factor VIIa/tissue factor catalytic complex. The anticoagulant activity of TFPI in one-stage coagulation assays is due mainly to its inhibition of factor Xa through a process that is enhanced by protein S and dependent upon the Kunitz-3 and carboxyterminal domains of full-length TFPIalpha. Carboxyterminal truncated forms of TFPI as well as TFPIalpha in plasma, however, inhibit factor VIIa/tissue factor in two-stage assay systems. Studies in gene-disrupted mice demonstrate the physiological importance of TFPI.
Blood, 1987
Tissue factor (TF) is a lipoprotein cofactor that markedly enhances the proteolytic activation of... more Tissue factor (TF) is a lipoprotein cofactor that markedly enhances the proteolytic activation of factors IX and X by factor VIIa. The functional activity of TF is inhibited by serum in a time- and temperature-dependent fashion. The inhibitory effect is also dependent on the presence of calcium ions and can be reversed by calcium chelation (EDTA) and dilution, thus excluding direct proteolytic destruction of TF as the mechanism for inhibition. Using crude TF, serum immunodepleted of factor VII, and serum depleted of the vitamin K-dependent coagulation factors by BaSO4 absorption, it is shown that TF factor inhibition requires the presence of VII(a), X(a), and an additional moiety contained in barium-absorbed serum. When each of the other required components were at saturating concentrations, half-maximal inhibition of TF occurred in reaction mixtures containing 2% (vol/vol) of TF at a factor VII(a) concentration of 4 ng/mL (80 pmol/L), a factor X concentration of 50 ng/mL (850 pmol/L), and a concentration of barium-absorbed serum of 2.5% (vol/vol). Catalytically active factor Xa appeared to be required for the generation of optimal TF inhibition. The results are consistent with the conclusions of Hjort that barium-absorbed serum contains a moiety that inhibits the VIIa-Ca2+-TF complex. The role of factor X(a) in the generation of the inhibitory phenomenon remains to be elucidated. The inhibitor present in serum (plasma) may in part be produced by the liver in vivo since cultured human hepatoma cells (HepG2) secrete this inhibitory activity in vitro.
Thrombosis and Haemostasis, Apr 1, 2001
Protein Z (PZ) is a vitamin K-dependent plasma protein that forms a Ca++-dependent complex with f... more Protein Z (PZ) is a vitamin K-dependent plasma protein that forms a Ca++-dependent complex with factor Xa at phospholipid surfaces. This interaction between PZ and factor Xa enhances by >1,000-fold the inhibition of factor Xa by the serpin called protein Z-dependent protease inhibitor (ZPI). These experiments show that PZ also binds ZPI in a process that does not require Ca++ or phospholipids. In pooled normal plasma, which contains excess ZPI relative to PZ, all the PZ appears to be bound in a complex with ZPI. The binding of PZ to ZPI reduces the rate and extent of factor XIa inhibition produced by ZPI. During the course of these studies, it was noted that a PZ purification procedure, that included NaSCN (2.0 M) elution of PZ from an immunoaffinity column, produced aggregated, inactive forms of PZ.
Proceedings of the National Academy of Sciences of the United States of America, Mar 1, 1983
During blood clotting in vitro, protein C is converted in part to protein Ca, Protein Ca, in turn... more During blood clotting in vitro, protein C is converted in part to protein Ca, Protein Ca, in turn, inactivates factor Va. This is evidenced by the rapid inactivation of factor Va coagulant activity after clot formation which is associated with the cleavage of the Mr 110,000 peptide of factor Va. When exogenous factor Va is added to serum, it is inactivated only after a lag of 10-20 min. Using purified coagulation factors in the presence of EDTA, we demonstrated that factor Va enhances the rate of protein C activation by thrombin by 50-fold. The Km for factor Va in the reaction is 14 nM, 100 times higher than its Km for accelerating platelet surface prothrombin activation by factor Xa. By this mechanism, factor Va can act as a procoagulant as well as limit dissemination of the coagulation process through the activation of protein C and the subsequent inactivation of both factor Va and factor VIIIa.
Protein Z (PZ) is a plasma vitamin K- dependent protein that functions as a cofactor to dramatica... more Protein Z (PZ) is a plasma vitamin K- dependent protein that functions as a cofactor to dramatically enhance the inhi- bition of coagulation factor Xa by the serpin, protein Z-dependent protease inhibitor (ZPI). In vitro, ZPI not only inhibits factor Xa in a calcium ion-, phospholipid-, and PZ-dependent fash- ion, but also directly inhibits coagulation factor XIa. In murine gene-deletion
Protein Z (PZ) is a plasma vitamin K- dependent protein that functions as a cofactor to dramatica... more Protein Z (PZ) is a plasma vitamin K- dependent protein that functions as a cofactor to dramatically enhance the inhi- bition of coagulation factor Xa by the serpin, protein Z-dependent protease inhibitor (ZPI). In vitro, ZPI not only inhibits factor Xa in a calcium ion-, phospholipid-, and PZ-dependent fash- ion, but also directly inhibits coagulation factor XIa. In murine gene-deletion
Thrombosis and Haemostasis, Jul 1, 1995
Thrombosis and Haemostasis, 2010
To assess the potential roles of protein Z (PZ) and protein Z-dependent protease inhibitor (ZPI) ... more To assess the potential roles of protein Z (PZ) and protein Z-dependent protease inhibitor (ZPI) in venous thrombosis, their plasma levels were measured in 426 individuals with venous thrombosis and 471 control individuals participating in the Leiden Thrombophilia Study. A relationship between the level of PZ or ZPI and venous thrombosis was not detected in the overall case-control study. PZ and ZPI circulate as a complex and their plasma levels are interdependent. Both PZ and ZPI are increased with oral contraceptive use and reduced with oral anticoagulant therapy.
Thrombosis and Haemostasis, Jun 1, 2001
Protein Z-dependent protease inhibitor (ZPI) is plasma proteinase inhibitor in the serpin superfa... more Protein Z-dependent protease inhibitor (ZPI) is plasma proteinase inhibitor in the serpin superfamily that produces rapid inhibition of factor Xa in the presence of phospholipids, Ca++ and protein Z (PZ). Mouse ZPI cDNA was isolated and cloned from mouse liver RNA using RT-PCR. The cDNA contains 100 nucleotides 5' of a translation initiation codon and an open reading frame of 1344 nucleotides followed by a 163 nucleotide 3' untranslated sequence with a poly (A) tail. The cDNA predicts a signal peptide containing 21 amino acids and a mature protein of 427 residues with 8 potential sites for N-linked glycosylation. The oligonucleotide and predicted amino acid sequences of mouse ZPI are 72% and 81% homologous with those of human ZPI. Like human ZPI, mouse ZPI contains tyrosine-serine (P1-P1') at its reactive center in contrast to the rat molecule which contains tyrosine-cysteine. By Northern analysis, mouse ZPI mRNA is 1.6 kb in size and, similar to both human and rat, it is detectable in liver, but not in heart, brain, spleen, lung, kidney, skeletal muscle or testes.
Blood, 2010
ABSTRACT Protein S (PS) enhances the inhibition of factor Xa (FXa) by tissue factor pathway inhib... more ABSTRACT Protein S (PS) enhances the inhibition of factor Xa (FXa) by tissue factor pathway inhibitor-alpha (TFPI-alpha) in the presence of Ca(2+) and phospholipids. Altered forms of recombinant TFPI-alpha were used to determine the structures within TFPI-alpha that may be involved in this PS-dependent effect. Wild-type TFPI-alpha (TFPI(WT)), TFPI-alpha lacking the K3 domain (TFPI-(DeltaK3)), and TFPI-alpha containing a single amino acid change at the putative P1 residue of K3 (R199L, TFPI(K3P1)) produced equivalent FXa inhibition in the absence of PS, whereas the response in FXa inhibition produced by PS was reduced with TFPI(K3P1) (EC(50) 61.8 +/- 13.4nM vs 8.0 +/- 0.4nM for TFPI(WT)) and not detectable with TFPI-(DeltaK3). Ligand blotting and surface plasmon resonance experiments demonstrated that FXa bound TFPI(WT) and TFPI-(DeltaK3) but not the isolated K3 domain, whereas PS bound TFPI(WT) and the K3 domain but not TFPI-(DeltaK3). Addition of TFPI(WT), TFPI(K3P1), or TFPI-(DeltaK3) produced comparable prolongation of FXa-induced coagulation in PS-deficient plasma, but the anticoagulant effect of TFPI(WT) was substantially greater than that of TFPI(K3P1) > TFPI-(DeltaK3) in normal plasma and PS-deficient plasma reconstituted with PS. We conclude that the PS-mediated enhancement of FXa inhibition by TFPI-alpha involves an interaction between PS and TFPI-alpha, which requires the K3 domain of TFPI-alpha.
Blood, Nov 15, 1996
Coagulation is initiated by the binding of factor VIIa to tissue factor, with resultant limited f... more Coagulation is initiated by the binding of factor VIIa to tissue factor, with resultant limited factor IX and X activation and thrombin production. Owing to the feedback inhibition of the factor VIIa/tissue factor complex by tissue factor pathway inhibitor (TFPI), additional factor X activation and thrombin generation must proceed through a pathway involving factors VIII, IX, and XI. Experiments designed to elucidate the requirement for amplified factor Xa and thrombin generation in normal hemostasis show that the resistance of plasma clots to tissue plasminogen activator (tPA)- and urokinase-induced fibrinolysis is related to the extent of thrombin generation. Inhibition of fibrinolysis is mediated in part by plasma carboxypeptidase-U ([CPU] carboxypeptidase-R, procarboxypeptidase-B, thrombin-activatable fibrinolysis inhibitor), a proenzyme that is proteolytically activated by thrombin in a process enhanced dramatically by the cofactor thrombomodulin. A clot induced in factor IX-deficient plasma with limited amounts of tissue factor in the presence of urokinase (100 U/mL) lyses prematurely, and this defect is corrected by supplementation of the deficient plasma with factor IX (5 micrograms/mL) or thrombomodulin (20 ng/mL). These additions enhance the rate and extent of CPU activation: in the case of factor IX, presumably by permitting amplified generation of factor Xa and thrombin, and in the case of thrombomodulin, presumably by increasing the degree of CPU activation produced by the low levels of thrombin generated in the absence of factor IX. Pretreatment of the factor IX-deficient plasma with specific anti-CPU antibodies prevents the increased resistance to fibrinolysis produced by addition of factor IX and thrombomodulin. Likewise, when coagulation is induced by thrombin (2 U/mL) in the presence of tPA (60 U/mL), clots formed from plasmas deficient in factors VIII, IX, X, or XI lyse prematurely unless the missing factor is replaced or thrombomodulin (20 ng/mL) is added.
J Biol Chem, 1995
Tissue factor pathway inhibitor (TFPI) is a potent inhibitor of the blood coagulation factor VIIa... more Tissue factor pathway inhibitor (TFPI) is a potent inhibitor of the blood coagulation factor VIIa-tissue factor complex, as well as a direct inhibitor of factor Xa. Intravenously administered TFPI is rapidly cleared from circulation predominantly via liver. We previously reported that the low density lipoprotein receptor-related protein (LRP), a multifunctional endocytic receptor, mediates the uptake and degradation of TFPI in hepatoma cells. This process is inhibited by a 39-kDa receptor-associated protein which binds to LRP and regulates its ligand binding activity. However, a distinct, low affinity binding site (perhaps heparin sulfate proteoglycans, HSPGs) on the endothelium and liver is thought to be responsible for the majority of TFPI cell surface binding. In the current study, we investigated the role of LRP and this second binding site in the clearance of 125I-TFPI in vivo using competitors and inhibitors of the receptors. Mice overexpressing the 39-kDa protein via adenoviral-mediated gene transfer displayed diminished plasma clearance of 125I-TFPI. Blockade of cell surface HSPGs sites by incubation with the positively charged molecule, protamine, inhibited 125I-TFPI binding to the hepatoma cells in vitro. In addition, preadministration of protamine in vivo prolonged the plasma clearance of 125I-TFPI in a dose-dependent manner. However, a dramatic increase of the plasma half-life of 125I-TFPI and virtual elimination of 125I-TFPI clearance was observed in mice overexpressing the 39-kDa protein and administered protamine. Taken together, our results suggest that two receptor mechanisms are involved in the clearance of TFPI in vivo.
The Journal of Clinical Investigation, 1995
Nucleic Acids Research, Dec 1, 1990
The Journal of Clinical Investigation, 2002
Science, Jun 1, 1990
An inhibitor of coagulation factor XIa was purified from serum-free conditioned medium of HepG2 l... more An inhibitor of coagulation factor XIa was purified from serum-free conditioned medium of HepG2 liver cells. Platelets stimulated with thrombin or calcium ionophore (A23187) secrete a protein functionally and immunologically identical to the inhibitor, implying a role for this inhibitor in hemostasis. Analysis of the amino-terminal amino acid sequence and immunologic reactivity showed the inhibitor to be a truncated form of the Alzheimer's amyloid precursor protein that contains a Kunitz-type serine protease inhibitor domain and at least a portion of the amyloid beta protein. It inhibits factor XIa and trypsin with a Ki of 450 +/- 50 pM and 20 +/- 10 pM, respectively. Heparin (1 unit/ml) did not significantly effect inhibition of trypsin, but inhibition of XIa was 15 times greater (Ki = 25 +/- 15 pM) in the presence of heparin.
Frontiers in Bioscience, 2012
TFPI is a multivalent, Kunitz-type proteinase inhibitor, which, due to alternative mRNA splicing,... more TFPI is a multivalent, Kunitz-type proteinase inhibitor, which, due to alternative mRNA splicing, is transcribed in three isoforms: TFPIalpha, TFPIdelta, and glycosyl phosphatidyl inositol (GPI)-anchored TFPIbeta. The microvascular endothelium is thought to be the principal source of TFPI and TFPIalpha is the predominant isoform expressed in humans. TFPIalpha, apparently attached to the surface of the endothelium in an indirect GPI-anchor-dependent fashion, represents the greatest in vivo reservoir of TFPI. The Kunitz-2 domain of TFPI is responsible for factor Xa inhibition and the Kunitz-1 domain is responsible for factor Xa-dependent inhibition of the factor VIIa/tissue factor catalytic complex. The anticoagulant activity of TFPI in one-stage coagulation assays is due mainly to its inhibition of factor Xa through a process that is enhanced by protein S and dependent upon the Kunitz-3 and carboxyterminal domains of full-length TFPIalpha. Carboxyterminal truncated forms of TFPI as well as TFPIalpha in plasma, however, inhibit factor VIIa/tissue factor in two-stage assay systems. Studies in gene-disrupted mice demonstrate the physiological importance of TFPI.
Blood, 1987
Tissue factor (TF) is a lipoprotein cofactor that markedly enhances the proteolytic activation of... more Tissue factor (TF) is a lipoprotein cofactor that markedly enhances the proteolytic activation of factors IX and X by factor VIIa. The functional activity of TF is inhibited by serum in a time- and temperature-dependent fashion. The inhibitory effect is also dependent on the presence of calcium ions and can be reversed by calcium chelation (EDTA) and dilution, thus excluding direct proteolytic destruction of TF as the mechanism for inhibition. Using crude TF, serum immunodepleted of factor VII, and serum depleted of the vitamin K-dependent coagulation factors by BaSO4 absorption, it is shown that TF factor inhibition requires the presence of VII(a), X(a), and an additional moiety contained in barium-absorbed serum. When each of the other required components were at saturating concentrations, half-maximal inhibition of TF occurred in reaction mixtures containing 2% (vol/vol) of TF at a factor VII(a) concentration of 4 ng/mL (80 pmol/L), a factor X concentration of 50 ng/mL (850 pmol/L), and a concentration of barium-absorbed serum of 2.5% (vol/vol). Catalytically active factor Xa appeared to be required for the generation of optimal TF inhibition. The results are consistent with the conclusions of Hjort that barium-absorbed serum contains a moiety that inhibits the VIIa-Ca2+-TF complex. The role of factor X(a) in the generation of the inhibitory phenomenon remains to be elucidated. The inhibitor present in serum (plasma) may in part be produced by the liver in vivo since cultured human hepatoma cells (HepG2) secrete this inhibitory activity in vitro.
Thrombosis and Haemostasis, Apr 1, 2001
Protein Z (PZ) is a vitamin K-dependent plasma protein that forms a Ca++-dependent complex with f... more Protein Z (PZ) is a vitamin K-dependent plasma protein that forms a Ca++-dependent complex with factor Xa at phospholipid surfaces. This interaction between PZ and factor Xa enhances by >1,000-fold the inhibition of factor Xa by the serpin called protein Z-dependent protease inhibitor (ZPI). These experiments show that PZ also binds ZPI in a process that does not require Ca++ or phospholipids. In pooled normal plasma, which contains excess ZPI relative to PZ, all the PZ appears to be bound in a complex with ZPI. The binding of PZ to ZPI reduces the rate and extent of factor XIa inhibition produced by ZPI. During the course of these studies, it was noted that a PZ purification procedure, that included NaSCN (2.0 M) elution of PZ from an immunoaffinity column, produced aggregated, inactive forms of PZ.
Proceedings of the National Academy of Sciences of the United States of America, Mar 1, 1983
During blood clotting in vitro, protein C is converted in part to protein Ca, Protein Ca, in turn... more During blood clotting in vitro, protein C is converted in part to protein Ca, Protein Ca, in turn, inactivates factor Va. This is evidenced by the rapid inactivation of factor Va coagulant activity after clot formation which is associated with the cleavage of the Mr 110,000 peptide of factor Va. When exogenous factor Va is added to serum, it is inactivated only after a lag of 10-20 min. Using purified coagulation factors in the presence of EDTA, we demonstrated that factor Va enhances the rate of protein C activation by thrombin by 50-fold. The Km for factor Va in the reaction is 14 nM, 100 times higher than its Km for accelerating platelet surface prothrombin activation by factor Xa. By this mechanism, factor Va can act as a procoagulant as well as limit dissemination of the coagulation process through the activation of protein C and the subsequent inactivation of both factor Va and factor VIIIa.