Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.4.21.5 (thrombin)
 33,306 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Binding of 125I-Fab fragments of chain-specific antibodies indicate that both heavy and light chains of alpha-granule factor Va (FVa) were externalized on the platelet membrane after stimulation with thrombin. Using a Mab against the activation peptide of factor V (FV), the epitope appears on the stimulated platelet surface. Half as much light chain and heavy chain (FVa) was expressed compared to the activation peptide, suggesting that expression of alpha-granule FV occurs after thrombin stimulation. Using an ELISA, we find that 32% of alpha-granule FV was released and 68% is retained in the platelet pellet. Immunoblots of platelets indicate that FV exists in 200 kDa und 150 kDa forms, representing incomplete cleavage, while the releasate demonstrates a more complete cleavage by proteases. We conclude that expression of alpha-granule FV is quantitatively greater than that released and exists in molecular forms which cannot be completely explained by the binding of FVa.
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PMID:Thrombin-stimulated human platelets express molecular forms of alpha-granule factor V (FV), which differ from FVa. 774 Apr 69

Flow cytometry (FC) provides a reproducible investigation of cell surface antigens on platelets. The aim of this study was to elaborate appropriate protocols and to compare them with other techniques that have already been published. (1) Venipuncture with tubes containing citrate was better for the preservation of the antigenicity than using ACD tubes. The isolated platelets could not be completely distinguished from detritus and protein aggregates. Therefore a platelet concentration between 10(7) and 10(8)/ml measurement buffer was necessary to obtain a sufficient resolution by FC. (2) Isolation methods using either differential centrifugation or diluted Ficoll-Hypaque as a flotation medium provided platelets of equal purity. The method with Ficoll-Hypaque resulted in a higher number of isolated platelets than differential centrifugation. The demonstration of platelets and their antigens in whole blood without isolation gave good results provided the platelets were not activated. Activation of platelets with 1 NIH-U thrombin/l resulted in the loss of a part of the highly activated platelets because of their aggregation. (3) Comparing different concentrations of paraformaldehyde in PBS, fixation with 1% for 15 min provided the best antigen preservation for most of the antigens investigated. Isolation induced platelet activation. In order to avoid this effect, the whole anticoagulated blood was fixed with 1% paraformaldehyde for 15 min immediately after venipuncture. Then the platelets were isolated using diluted Ficoll-Hypaque. In this way, systemic activation of platelets can be detected with antibodies against glycoproteins which are translocated from the alpha-granules or lysosomes to the cell membrane. These activation markers can be determined on immediately fixed platelets (already in the whole blood) without any interference due to unspecific activation caused by the isolation procedure. (4) Platelet treatment with citric acid at pH 3, in order to remove the antigenicity of HLA-class I molecules, was sensitive to immediate fixation with paraformaldehyde in the whole blood. Fixation after isolating the platelets made it possible to demonstrate antigen stripping, and the free heavy chain, devoid of the beta 2-microglobulin, could be clearly demonstrated. (5) Using standardization beads, the average number of antigenic sites per platelet could be determined for the investigated specificities. It was shown that antibodies which have been directly conjugated or biotinylated and combined with streptavidin-phycoerythrin yielded similar results in terms of the number of antigenic binding sites while unconjugated antibodies in combination with FITC-conjugated anti-mouse-IgG led to overestimation of antigenic binding sites.
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PMID:Standardization of the flow cytometric determination of HLA class I antigens, 'platelet-specific' glycoproteins and activation markers. 776 17

Gln506-factor V (FV) was purified from plasma of an individual homozygous for an Arg506Gln mutation in FV that is associated with activated protein C (APC) resistance. Purified Gln506-FV, as well as Gln506-FVa generated by either thrombin or FXa, conveyed APC resistance to FV-deficient plasma in coagulation assays. Clotting assay studies also suggested that APC resistance does not involve any abnormality in FV-APC-cofactor activity. In purified reaction mixtures, Gln506-FVa in comparison to normal FVa showed reduced susceptibility to APC, because it was inactivated approximately 10-fold slower than normal Arg506-FVa. It was previously reported that inactivation of normal FVa by APC involves an initial cleavage at Arg506 followed by phospholipid-dependent cleavage at Arg306. Immunoblot and amino acid sequence analyses showed that the 102-kD heavy chain of Gln506-FVa was cleaved at Arg306 during inactivation by APC in a phospholipid-dependent reaction. This reduced but measurable susceptibility of Gln506-FVa to APC inactivation may help explain why APC resistance is a mild risk factor for thrombosis because APC can inactivate both normal FVa and variant Gln506-FVa. In summary, this study shows that purified Gln506-FV can account for APC resistance of plasma because Gln506-FVa, whether generated by thrombin or FXa, is relatively resistant to APC.
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PMID:Activated protein C resistance: molecular mechanisms based on studies using purified Gln506-factor V. 778 Jan 27

The role of Factor VIII light chain cleavage in Factor VIII activation and subunit interaction was investigated. Purified Factor VIII was dissociated into its separate subunits, and the isolated light chain was cleaved by thrombin at position Arg1689 or by Factor Xa at position Arg1721. These Factor VIII light chain derivatives then were used for reconstitution with purified Factor VIII heavy chain to obtain heterodimers that were exclusively cleaved within the light chain. Intact and cleaved light chain could effectively be reassociated with heavy chain, with concomitant regain of Factor VIII cofactor function. The association rate constant of Factor Xa-cleaved light chain was found to be 3-fold lower than that of thrombin-cleaved or intact light chain, suggesting a role of the region Ser1690-Arg1721 in subunit assembly. Dissociation rate constants, however, were independent of Factor VIII light chain cleavage. Low ionic strength was observed to promote association but to destabilize the Factor VIII heterodimer. At high ionic strength, Factor VIII dissociation was extremely slow (kappa off approximately 10(-5) s-1) for all Factor VIII light chain derivatives, indicating that Factor VIII light chain cleavage is not related to Factor VIII dissociation. Furthermore, Factor VIII light chain cleavage does not affect enzyme-cofactor assembly, since the various light chain derivatives proved equally efficient in binding to Factor IXa (Kd approximately 15 nM). Studies in a purified Factor X-activating system demonstrated that thrombin and Factor Xa activate Factor VIII to the same extent. However, Factor Xa differed from thrombin in that it cleaved at Arg1721 rather than at Arg1689. Reassociated heterodimers of Factor VIII heavy chain and intact light chain did not promote Factor X activation. In contrast, heterodimers that contained cleaved light chain exhibited substantial Factor VIIIa activity. These data demonstrate that a single cleavage at either Arg1689 or Arg1721 converts the inactive Factor VIII heterodimer into an active cofactor of Factor IXa.
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PMID:The role of cleavage of the light chain at positions Arg1689 or Arg1721 in subunit interaction and activation of human blood coagulation factor VIII. 787 3

The cleavage of human factor V and human factor Va by human activated protein C (APC) was analyzed in the absence and presence of phospholipid vesicles containing 75% phosphatidylcholine (PC) and 25% phosphatidylserine (PS). Membrane-bound human factor V (250 nM) is cleaved by APC (2.5 nM) to give M(r) = 200,000, 70,000, 45,000, and 30,000 fragments and an M(r) = 22/20,000 doublet. These fragments are released after four sequential cleavages of the membrane-bound procofactor at Arg306, Arg506, Arg679, and Lys994. No cofactor activity is observed following thrombin treatment of the membrane-bound APC-cleaved procofactor. In the absence of a membrane surface, no cleavage of factor V by APC is observed, and following thrombin activation factor Va retains full cofactor activity. Membrane-bound human factor Va (600 nM) loses more than 90% of its initial cofactor activity after 10 min of incubation with APC (10.9 nM), and virtually no cofactor activity is observed after 1 h of incubation. Under similar conditions but in the absence of PCPS vesicles, factor Va is cleaved but retains approximately 80% of its initial cofactor activity after 2 h of incubation with APC. In the presence of PCPS vesicles, the APC related loss of activity is correlated with cleavage of the heavy chain and appearance of fragments of M(r) = 45,000, 30,000, and of 28/26,000, and 22/20,000 doublets. These products correspond to three cleavages of the heavy chain (at Arg306, Arg506, and Arg679). Cleavage at Arg506 of factor Va precedes and appears to be required for cleavage at Arg306 and Arg679. In the absence of membrane, proteolysis at Arg506 produces an M(r) = 75,000 fragment which corresponds to the NH2-terminal portion of the human factor Va heavy chain (residues 1-506), and a carboxyl-terminal doublet of M(r) = 28/26,000 (residues 507-709) which is cleaved by APC at Arg679 to generate an M(r) = 22/20,000 doublet and an M(r) = 6,000 peptide. No cleavage of the light chain of the human cofactor is observed in the presence or absence of PCPS vesicles following 2 h of incubation with APC. Our data demonstrate that inactivation of human factor V and human factor Va only occurs in the presence of a membrane surface after cleavage at Arg306. However, while this cleavage site is exposed on membrane-bound human factor V, cleavage at Arg506 on the heavy chain of factor Va appears necessary for complete exposure of the cleavage site at Arg306.
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PMID:The mechanism of inactivation of human factor V and human factor Va by activated protein C. 798 61

We describe the production and biochemical characterization of the first GPIIb/IIIa-inhibiting monoclonal antibody that contains an RGD sequence in the CDR3 region of the heavy chain. Monoclonal antibodies obtained by immunizing mice with human platelets were screened using consecutive ELISAs based on human platelets and immuno-affinity-purified glycoprotein (GP) IIb/IIIa coated on microtitre plates. Out of 30 monoclonal antibodies reacting with GPIIb/IIIa, one, MA-16N7C2, potently inhibited platelet aggregation induced by ADP, thrombin, arachidonic acid, collagen, U46619, adrenaline and platelet-activating factor, whereas ristocetin-induced aggregation was unaffected. MA-16N7C2 (IgG2a) bound approximately 4 times faster to activated than to resting platelets, with a Kdcalc of 6.6nM and of 17.5nM, respectively. Equilibrium binding studies to non-activated platelets showed a Kd of 18.2nM with 41 x 10(3) binding sites per platelet. The antibody recognized GPIIb/IIIa only as a Ca(2+)-dependent complex. MA-16N7C2 blocked fibrinogen and von Willebrand factor binding to GPIIb/IIIa in a competitive manner with a Ki of 8.5nM and 13.2nM, respectively. Sequence analysis revealed a RGD-containing sequence with homology to disintegrins, in the CDR3 region of the heavy chain. That this RGD-containing sequence could be involved in the interaction of the antibody to GPIIb/IIIa was finally indicated by showing that the binding is completely and competitively inhibited by echistatin.
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PMID:An echistatin-like Arg-Gly-Asp (RGD)-containing sequence in the heavy chain CDR3 of a murine monoclonal antibody that inhibits human platelet glycoprotein IIb/IIIa function. 799 97

Protein C is a vitamin K-dependent serine protease zymogen that upon activation inhibits the coagulation cascade by inactivating factors Va and VIIIa. In an attempt to improve the anticoagulant activity of activated protein C (APC), we have prepared a mutant of protein C in mammalian cells in which Glu at position 192 (chymotrypsin numbering system) has been replaced with Gln (PC E192Q). Our strategy is based on the observation that the same substitution in thrombin improves the catalytic activity toward natural and synthetic substrates that contain Asp residues at P3 and P3'. Since factor Va also has an Asp at position P3 in the APC cleavage site of the factor Va heavy chain, we hypothesized that APC E192Q would inactivate factor Va more rapidly than wild type APC. The mutant inactivated factor Va approximately 2-3-fold faster than wild type. In plasma the mutant exhibited slightly less anticoagulant activity than wild type enzyme. Further characterization revealed that APC E192Q is inhibited 280 times faster than APC by alpha 1-antitrypsin (K2 = 2.8 x 10(3) M-1S-1 versus 10 M-1 S-1), and unlike APC, APC E192Q is inhibited by antithrombin III in the presence of heparin (K2 = 1.17 x 10(3) M-1 S-1) M-1 S-1) and absence of heparin (K2 = 57 M-1 S-1). Ca2+ increased K2 more than 4-fold with or without heparin. Unlike wild type APC, APC E192Q was effectively inhibited by pancreatic trypsin inhibitor (Ki = 10.6 +/- 0.26 nM) and tissue factor pathway inhibitor (58 +/- 5 nM). Like factor Xa, APC E192Q rapidly processed factor IX to factor IX alpha. These observations suggest that even though Glu at position 192 is not an optimal residue for catalyzing factor Va inactivation, it is an evolutionary adaptation to slow inhibition by plasma protease inhibitors.
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PMID:Conversion of glutamic acid 192 to glutamine in activated protein C changes the substrate specificity and increases reactivity toward macromolecular inhibitors. 810 82

Acquired inhibitors (antibodies) to specific coagulation factors develop in certain underlying disorders such as autoimmune diseases, post-partum period and drug reactions. In about half the patients, no underlying diseases are identified. The majority of the patients have a factor VIII inhibitor. The immunological characteristics of the inhibitors revealed them to be IgG4 with restricted polyclonal nature. The inhibitors to factor VIII recognize epitopes of either heavy chain (44 kDa fragment in thrombin activation) or light chain (72 kDa fragment), or both, which correspond to A2 and C2 domains, respectively, both suggested to be functionally important on the factor VIII molecule. In this symposium, we reported the cases with factor VIII inhibitors and factor V inhibitor and the diagnosis and treatment of these diseases. Further analysis of these inhibitors may be helpful in the management of the patients with severe hemorrhage.
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PMID:[Acquired inhibitors to coagulation factors]. 810 80

The interaction between human factor IXa and factor VIII or its constituent units was investigated. Equilibrium binding studies were performed employing factor VIII light chain that was immobilized on a monoclonal antibody. Factor VIII light chain was observed to bind factor IXa with high affinity (Kd = 14.8 +/- 3.2 nM) and approximately 1:1 stoichiometry. Optimal interaction required NaCl concentrations below 0.2 M and the presence of Ca2+ ions. Factor VIII light chain in solution effectively inhibited binding of factor IXa to the immobilized light chain (Ki = 10.9 +/- 1.9 nM). The isolated factor VIII light chain and the factor VIII heterodimer were equally effective in factor IXa binding, demonstrating that this interaction did not require the factor VIII heavy chain. Factor Xa and activated Protein C were found to be inefficient (Ki > or = 1.2 microM) in competing with factor IXa, indicating that the high affinity for factor VIII light chain was unique for factor IXa. The factor IXa-factor VIII light chain interaction was inhibited by von Willebrand factor, but this effect was abolished by cleavage of the factor VIII light chain by thrombin. An antibody that inhibits von Willebrand factor-factor VIII complex formation did not compete for factor IXa binding. In contrast, association of factor IXa with the factor VIII light chain was inhibited by an antibody directed against the factor VIII region Gln1778-Asp1840. We propose that this sequence provides a factor IXa binding site and that its exposure requires dissociation of the factor VIII-von Willebrand factor complex.
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PMID:Identification of a binding site for blood coagulation factor IXa on the light chain of human factor VIII. 812 24

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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PMID:Platelet coagulation factor Va: the major secretory platelet phosphoprotein. 816 84


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