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Membrane-dependent reactions in blood coagulation: role of the vitamin K-dependent enzyme complexes

Kalafatis, M. ; Swords, N.A. ; Rand, M.D. ; [et al.]

Amsterdam : Elsevier

Biochimica et Biophysica Acta (BBA)/Molecular Basis of Disease 1227 (1994), S. 113-129

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ISSN: 0925-4439

Keywords: Blood coagulation ; Complex formation ; Phospholipid surface ; α-Thrombin

Source: Elsevier Journal Backfiles on ScienceDirect 1907 - 2002

Topics: Biology , Chemistry and Pharmacology , Medicine , Physics

Type of Medium: Electronic Resource

URL: http://linkinghub.elsevier.com/retrieve/pii/0925-4439(94)90086-8

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Comparison of activated protein C/protein S-mediated inactivation of human factor VIII and factor V (1996)

Lu, D ; Kalafatis, M ; Mann, KG ; [et al.]

American Society of Hematology

In: Blood. 1996; 87(11): 4708-4717. Published 1996 Jun 01. doi: 10.1182/blood.v87.11.4708.bloodjournal87114708.

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Publication Date: 1996-06-01

Description: The proteolytic cleavage and subsequent inactivation of recombinant human factor VIII (rhFVIII) and human factor VIIIa (rhFVIIIa) by recombinant human activated protein C (rAPC) was analyzed in the presence and absence of human protein S and human factor V (FV). Membrane-bound rhFVIIIa spontaneously looses most of its initial cofactor activity after 15 minutes of incubation at pH 7.4. The remaining activity can be eliminated after incubation with rAPC. Complete inactivation of the membrane-bound rhFVIII and rhFVIIIa by APC correlates with cleavage at Arg336. The inactivation of rhFVIII and human plasma FV by rAPC were also compared. Under similar experimental conditions, complete inactivation of membrane-bound FVIII (60 nmol/L) by rAPC (10 nmol/L) requires 4 hours of incubation, in contrast to 5 minutes for FV (60 nmol/L). The presence of protein S (100 nmol/L) enhances rhFVIII inactivation by rAPC by 6.4-fold and FVa inactivation by twofold, whereas membrane-bound FV showed no protein S dependence during inactivation. The addition of human FV to the APC/protein S inactivation mixture increases by approximately twofold the rate of inactivation of rhFVIII. The effect of FV on the rhFVIII inactivation by APC is protein S-dependent, because FV alone has no effect on the inactivation rate of rhFVIII by APC. Western blotting using a monoclonal antibody that recognizes an epitope between amino acid residues 307 and 506 of human FV showed that FV was completely cleaved by APC at the beginning of the rhFVIII inactivation process. These data suggest that FV fragments derived from the B region of the procofactor after incubation of the membrane-bound procofactor with APC, but not intact single-chain FV, stimulate APC activity in the presence of protein S. rhFVIII, FV, and rhFVIIIa were not inactivated by Glu20-- 〉Ala-substituted rAPC (rAPCgamma20A), and membrane-bound factor Va was only partially inactivated. Our data suggest that (1) FV and FVa are the physiologically significant substrates for APC inactivation and (2) membranes-bound APC-treated FV is a cofactor for the APC inactivation of rhFVIII only in the presence of the intact form of protein S.

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Phosphorylation of factor Va and factor VIIIa by activated platelets (1993)

Kalafatis, M ; Rand, MD ; Jenny, RJ ; [et al.]

American Society of Hematology

In: Blood. 1993; 81(3): 704-719. Published 1993 Feb 01. doi: 10.1182/blood.v81.3.704.704.

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Publication Date: 1993-02-01

Description: Platelet activation leads to the incorporation of 32[PO4(2-)] into bovine coagulation factor Va and recombinant human factor VIII. In the presence of the soluble fraction from thrombin-activated platelets and (gamma-32P) adenosine triphosphate, radioactivity is incorporated exclusively into the M(r) = 94,000 heavy chain (H94) of factor Va and into the M(r) = 210,000 to 90,000 heavy chains as well into the M(r) = 80,000 light chain of factor VIII. Proteolysis of the purified phosphorylated M(r) = 94,000 factor Va heavy chain by activated protein C (APC) gave products of M(r) = 70,000, 24,000, and 20,000. Only the intermediate M(r) = 24,000 fragment contained radioactivity. Because the difference between the M(r) = 24,000 and M(r) = 20,000 fragments is located on the COOH-terminal end of the bovine heavy chain, phosphorylation of H94 must occur within the M(r) = 4,000 peptide derived from the carboxyl-terminal end of H94 (residues 663 through 713). Exposure of the radioactive factor VIII molecule to thrombin ultimately resulted in a nonradioactive light chain and an M(r) = 24,000 radioactive fragment that corresponds to the carboxyl-terminal segment of the A1 domain of factor VIII. Based on the known sequence of human factor VIII, phosphorylation of factor VIII by the platelet kinase probably occurs within the acidic regions 337 through 372 and 1649 through 1689 of the procofactor. These acidic regions are highly homologous to sequences known to be phosphorylated by casein kinase II. Results obtained using purified casein kinase II gave a maximum observed stoichiometry of 0.6 mol of 32[PO4(2-)]/mol of factor Va heavy chain and 0.35 mol of 32[PO4(2-)]/mol of factor VIII. Phosphoamino acid analysis of phosphorylated factor Va by casein kinase II or by the platelet kinase showed only the presence of phosphoserine while phosphoamino acid analysis of phosphorylated factor VIII by casein kinase II showed the presence of phosphothreonine as well as small amounts of phosphoserine. The platelet kinase responsible for the phosphorylation of the two cofactors was found to be inhibited by several synthetic protein kinase inhibitors. Finally, partially phosphorylated factor Va was found to be more sensitive to APC inactivation than its native counterpart. Our findings suggest that phosphorylation of factors Va and VIIIa by a platelet casein kinase II- like kinase may downregulate the activity of the two cofactors.

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Loss of membrane-dependent factor Va cleavage: a mechanistic interpretation of the pathology of protein CVermont (1994)

Lu, D ; Kalafatis, M ; Mann, KG ; [et al.]

American Society of Hematology

In: Blood. 1994; 84(3): 687-690. Published 1994 Aug 01. doi: 10.1182/blood.v84.3.687.bloodjournal843687.

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Publication Date: 1994-08-01

Description: Clinical manifestations of arterial and venous thrombosis in a family with protein C deficiency was associated with two mutations in the light chain of protein C: Glu20--〉Ala and Val34--〉Met. Further studies showed that the mutation Glu20--〉Ala which eliminated a gamma- carboxylation site was exclusively responsible for the anticoagulant defect of activated protein C (APC). Membrane-bound human factor Va is inactivated by APC after two sequential cleavages of the heavy chain at Arg506 and Arg306. Human factor Va inactivation by human recombinant APC (rAPC) and a mutant molecule with an alanine instead of a glutamic acid at position 20 (rAPC(gamma 20A)) was investigated in the presence and absence of phospholipid vesicles. During a 2-hour incubation period of the cofactor with either rAPC or rAPC(gamma 20A). In the absence of a membrane surface, factor Va is cleaved quantitatively at Arg506 and retains approximately 60% of its initial cofactor activity. After a 2- hour incubation period with rAPC membrane-bound factor Va has no cofactor activity, whereas in the presence of a membrane surface and rAPC(gamma 20A) factor Va retains 60% of its initial cofactor activity. The completed loss in factor Va cofactor activity upon incubation of the membrane-bound cofactor with phospholipid vesicles and rAPC is associated with cleavages at Arg506 and Arg306, whereas membrane-bound factor Va cleavage at Arg306 by rAPC(gamma 20A) is impaired, resulting in a cofactor that is cleaved at Arg506. Slow cleavage at Arg306 occurs when membrane-bound factor Va is incubated with rAPC(gamma 20A) and only small amounts of fragments of M(r) = 45,000 and 30,000 are noticed. Our data show that the genetic defect which leads to the absence of a gamma-carboxylation site at Glu20 impairs membrane binding of human APC, which in turn is required for cleavage of factor Va at Arg306 and inactivation of the cofactor. The consequence of impaired membrane-dependent cleavage at Arg306 is manifested in vivo by venous and arterial thrombosis.

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Localization of a collagen-interactive domain of human von Willebrand factor between amino acid residues Gly 911 and Glu 1,365 (1987)

Kalafatis, M ; Takahashi, Y ; Girma, JP ; [et al.]

American Society of Hematology

In: Blood. 1987; 70(5): 1577-1583. Published 1987 Nov 01. doi: 10.1182/blood.v70.5.1577.bloodjournal7051577.

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Publication Date: 1987-11-01

Description: A collagen-binding domain of von Willebrand factor (vWF) has been identified in the central part of the molecule by comparing the binding properties of vWF and Staphylococcus aureus V-8 protease-generated vWF fragments with collagen. The binding of purified human vWF to human type III collagen was found to be specific. At saturation, 38 to 50.2 micrograms of vWF bound per milligram of collagen. Scatchard plots derived from binding isotherms demonstrated the presence of at least two classes of binding sites. Purified vWF was digested with S aureus V- 8 protease into two complementary fragments (SpIII and SpII). SpII, the C-terminal end of vWF (amino acid residues 1,366 to 2,050), was totally devoid of affinity for collagen. Contrarily, purified SpIII, the N- terminal part of vWF (residues 1 to 1,365), totally displaced vWF binding and specifically bound to collagen. At saturation, 25 to 45 micrograms of SpIII bound per milligram of collagen. Scatchard plots demonstrated the presence of a single class of binding sites. SpIII was further digested with the same enzyme to generate SpI, a 52-kilodalton fragment from the C-terminal part of SpIII (residues 911 to 1,365). Spl induced a dose-dependent inhibition of both vWF and SpIII binding to collagen. A series of six monoclonal antibodies against SpIII that completely abolished vWF and SpIII interaction with collagen also bound to SpI. In conclusion, SpI extending between amino acid residues 911 and 1,365 of vWF contains a specific site that interacts with human type III collagen.

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Localization of a factor VIII binding domain on a 34 kilodalton fragment of the N-terminal portion of von Willebrand factor (1987)

Takahashi, Y ; Kalafatis, M ; Girma, JP ; [et al.]

American Society of Hematology

In: Blood. 1987; 70(5): 1679-1682. Published 1987 Nov 01. doi: 10.1182/blood.v70.5.1679.bloodjournal7051679.

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Publication Date: 1987-11-01

Description: Factor VIII (F.VIII) was tested for its ability to bind in solid phase system to von Willebrand Factor (vWF) or fragments obtained with Staphylococcus aureus V-8 protease, ie, SpIII (N-terminal), SpI (central), and SpII (C-terminal). Bound F.VIII was estimated in situ by clotting and chromogenic assays. F.VIII bound in a dose-dependent manner to immobilized vWF and SpIII but not to SpII or SpI. Binding was inhibited by 0.25 mol/L CaCl2 as well as by an excess of vWF or SpIII. Accordingly, immobilized F.VIII specifically bound 125I-vWF and SpIII but not SpII or SpI. Twelve monoclonal antibodies (MoAbs) directed towards SpIII, specifically blocking binding of F.VIII to vWF or SpIII, were used for the mapping of plasmic or tryptic fragments of vWF or SpIII. We thus established that a F.VIII binding domain of vWF is located on a 34 kilodalton (kd) fragment of the N-terminal portion of vWF, between residues 1 and 910, and that it is distinct from the GPIb and collagen binding domains.

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Proteolytic events that regulate factor V activity in whole plasma from normal and activated protein C (APC)-resistant individuals during clotting: an insight into the APC-resistance assay (1996)

Kalafatis, M ; Haley, PE ; Lu, D ; [et al.]

American Society of Hematology

In: Blood. 1996; 87(11): 4695-4707. Published 1996 Jun 01. doi: 10.1182/blood.v87.11.4695.bloodjournal87114695.

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Publication Date: 1996-06-01

Description: Human factor V is activated to factor Va by alpha-thrombin after cleavages at Arg709, Arg1018, and Arg1545. Factor Va is inactivated by activated protein C (APC) in the presence of a membrane surface after three sequential cleavages of the heavy chain. Cleavage at Arg506 provides for efficient exposure of the inactivating cleavages at Arg306 and Arg679. Membrane-bound factor V is also inactivated by APC after cleavage at Arg306. Resistance to APC is associated with a single nucleotide change in the factor V gene (G1691--〉A) corresponding to a single amino acid substitution in the factor V molecule: Arg506--〉Gln (factor V Leiden). The consequence of this mutation is a delay in factor Va inactivation. Thus, the success of the APC-resistance assay is based on the fortuitous activation of factor V during the assay. Plasmas from normal individuals (1691 GG) and individuals homozygous for the factor V mutation (1691 AA) were diluted in a buffer containing 5 mmol/L CaCl2, phospholipid vesicles (10 micromol/L), and APC. APC, at concentrations 〈 or = 5.5 nmol/L, prevented clot formation in normal plasma, whereas under similar conditions, a clot was observed in plasma from APC-resistant individuals. Gel electrophoresis analyses of factor V fragments showed that membrane-bound factor V is primarily cleaved at Arg306 in both plasmas. However, whereas in normal plasma production of factor Va heavy chain is counterbalanced by fast degradation after cleavage at Arg506/Arg306, in the APC-resistant individuals' plasma, early generation and accumulation of the heavy chain portion of factor Va occurs as a consequence of delayed cleavage at Arg306. At elevated APC concentrations (〉5.5 nmol/L), no clot formation was observed in either plasma from normal or APC-resistant individuals. Our data show that resistance to APC in patients with the Arg506--〉Gln mutation is due to the inefficient degradation (inactivation) of factor Va heavy chain by APC.

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Platelet coagulation factor Va: the major secretory platelet phosphoprotein (1994)

Rand, MD ; Kalafatis, M ; Mann, KG

American Society of Hematology

In: Blood. 1994; 83(8): 2180-2190. Published 1994 Apr 15. doi: 10.1182/blood.v83.8.2180.2180.

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Publication Date: 1994-04-15

Description: Platelet-derived coagulation factor Va is the primary secreted substrate for a thrombin-stimulation-dependent platelet kinase. Human platelet factor Va, consisting of a molecular weight (M(r)) 105,000 heavy chain and an M(r) 74,000 light chain, incorporates phosphate in at least two sites on the light chain. Phosphorylated factor Va represents 50% of the secreted protein-associated phosphate. This modification occurs exclusively at serine residues and is inhibited by H-7 and staurosporine, which suggests a protein kinase C (PKC)-mediated event. Purified plasma factor V and Va are phosphorylated in the light chain region by rat brain PKC. The activity of platelet factor Va in prothrombinase on platelets is not altered when phosphorylation is inhibited by staurosporine. Plasma-derived factor Va in the presence of thrombin stimulated platelets is phosphorylated on both the heavy chain and the light chain. Plasma factor V and factor Va heavy chain phosphorylation occurs without light chain phosphorylation in the presence of added 32P gamma-ATP and non-stimulated or collagen- stimulated platelets or casein kinase II. This differential phosphorylation of factor Va heavy and light chain shows two independent platelet kinase activities that act on factor Va. The heavy chain factor V/Va kinase activity is similar to casein kinase II, which we have demonstrated previously to act on factor Va and accelerate activated protein C inactivation of the cofactor. Our data show platelet-dependent phosphorylation of platelet and plasma factor V and Va resulting in significant covalent modifications of the cofactor. These modifications may play a role in directing the extracellular distribution of factor V and factor Va.

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Localization of a factor VIII binding domain on a 34 kilodalton fragment of the N-terminal portion of von Willebrand factor (1987)

Takahashi, Y ; Kalafatis, M ; Girma, JP ; [et al.]

American Society of Hematology

In: Blood. 1987; 70(5): 1679-1682. Published 1987 Nov 01. doi: 10.1182/blood.v70.5.1679.1679.

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Publication Date: 1987-11-01

Description: Factor VIII (F.VIII) was tested for its ability to bind in solid phase system to von Willebrand Factor (vWF) or fragments obtained with Staphylococcus aureus V-8 protease, ie, SpIII (N-terminal), SpI (central), and SpII (C-terminal). Bound F.VIII was estimated in situ by clotting and chromogenic assays. F.VIII bound in a dose-dependent manner to immobilized vWF and SpIII but not to SpII or SpI. Binding was inhibited by 0.25 mol/L CaCl2 as well as by an excess of vWF or SpIII. Accordingly, immobilized F.VIII specifically bound 125I-vWF and SpIII but not SpII or SpI. Twelve monoclonal antibodies (MoAbs) directed towards SpIII, specifically blocking binding of F.VIII to vWF or SpIII, were used for the mapping of plasmic or tryptic fragments of vWF or SpIII. We thus established that a F.VIII binding domain of vWF is located on a 34 kilodalton (kd) fragment of the N-terminal portion of vWF, between residues 1 and 910, and that it is distinct from the GPIb and collagen binding domains.

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Loss of membrane-dependent factor Va cleavage: a mechanistic interpretation of the pathology of protein CVermont (1994)

Lu, D ; Kalafatis, M ; Mann, KG ; [et al.]

American Society of Hematology

In: Blood. 1994; 84(3): 687-690. Published 1994 Aug 01. doi: 10.1182/blood.v84.3.687.687.

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Publication Date: 1994-08-01

Description: Clinical manifestations of arterial and venous thrombosis in a family with protein C deficiency was associated with two mutations in the light chain of protein C: Glu20--〉Ala and Val34--〉Met. Further studies showed that the mutation Glu20--〉Ala which eliminated a gamma- carboxylation site was exclusively responsible for the anticoagulant defect of activated protein C (APC). Membrane-bound human factor Va is inactivated by APC after two sequential cleavages of the heavy chain at Arg506 and Arg306. Human factor Va inactivation by human recombinant APC (rAPC) and a mutant molecule with an alanine instead of a glutamic acid at position 20 (rAPC(gamma 20A)) was investigated in the presence and absence of phospholipid vesicles. During a 2-hour incubation period of the cofactor with either rAPC or rAPC(gamma 20A). In the absence of a membrane surface, factor Va is cleaved quantitatively at Arg506 and retains approximately 60% of its initial cofactor activity. After a 2- hour incubation period with rAPC membrane-bound factor Va has no cofactor activity, whereas in the presence of a membrane surface and rAPC(gamma 20A) factor Va retains 60% of its initial cofactor activity. The completed loss in factor Va cofactor activity upon incubation of the membrane-bound cofactor with phospholipid vesicles and rAPC is associated with cleavages at Arg506 and Arg306, whereas membrane-bound factor Va cleavage at Arg306 by rAPC(gamma 20A) is impaired, resulting in a cofactor that is cleaved at Arg506. Slow cleavage at Arg306 occurs when membrane-bound factor Va is incubated with rAPC(gamma 20A) and only small amounts of fragments of M(r) = 45,000 and 30,000 are noticed. Our data show that the genetic defect which leads to the absence of a gamma-carboxylation site at Glu20 impairs membrane binding of human APC, which in turn is required for cleavage of factor Va at Arg306 and inactivation of the cofactor. The consequence of impaired membrane-dependent cleavage at Arg306 is manifested in vivo by venous and arterial thrombosis.

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