Stabilizing Factor VIIIa By Combining Mutations That Modulate Inter-Subunit Interactions and Proteolytic Inactivation

Blood ◽  
2013 ◽  
Vol 122 (21) ◽  
pp. 3572-3572
Author(s):  
Hironao Wakabayashi ◽  
Jennifer Wintermute ◽  
Philip J. Fay
Keyword(s):  
Thermal Stability ◽  
Cleavage Site ◽  
Thrombin Generation ◽  
Time Course ◽  
Conflicts Of Interest ◽  
Decay Rates ◽  
Spontaneous Decay ◽  
Thermal Decay ◽  
One Stage ◽  
Substrate Peptide

Abstract Factor (F) VIIIa serves as a cofactor for FIXa forming intrinsic FXase complex. The activity of FVIIIa is labile due to the tendency for A2 subunit of the cofactor to dissociate, thereby inactivating FVIIIa and dampening FXase activity. Recently we have shown that a combination of hydrophobic point mutations generated FVIII(a) variants with improved FVIII thermal stability and enhanced A2 subunit retention in FVIIIa (Wakabayashi et al. J. Thromb. Haemost. 2012, 10: 492-495). Furthermore, FVIIIa is a target for proteolytic inactivation catalyzed by FXa, the product of FXase complex. We have shown this proteolysis further contributes to the down-regulation of FXase and that altering the sequence flanking the primary FXa cleavage site in FVIIIa (at Arg336) yields marked reductions in the rates of proteolytic inactivation of FVIIIa catalyzed by FXa (DeAngelis et al. J. Biol. Chem. 2012, 287: 15409-15417). In this study we prepared various combinations of the above mutations to obtain a panel of novel FVIII molecules and examined the attributes of these reagents in assays monitoring FVIII thermal stability, FVIIIa spontaneous decay rates, rates of proteolytic inactivation by FXa, and thrombin generation potential. The mutants we prepared include 336(P4-P3’)562 [where residues 333-339 (PQLRMKN) that flank the fast FXa-cleavage site at Arg336 are replaced with residues flanking the slow cleavage site at Arg562 (residues 559-565, VDQRGNQ)] are combined with D519V/E665V (336-V) or D519/VE665V/A108I (336-VI). Specific activity values for the combined mutation variants ranged from 85% to 170% the WT value using a one-stage clotting assay and 95% to 110% using a two-stage chromogenic assay. FVIII thermal stability was tested by monitoring FVIII activity remaining during incubation at 57ºC over a 20 min time course. Thermal decay rates for 336-V and 336-VI variants were reduced by ∼1.7 and ∼5-fold as compared with the WT FVIII value. These rate values reflected additive effects of the individual mutations since rate values for controls FVIII D519V/E665V and FVIII A108I were reduced ∼1.7, and ∼3-fold, respectively, relative to WT, while the thermal decay rate for FVIII 336(P4-P3’)562 was WT-like. FVIIIa spontaneous decay rates were determined following activation of FVIII by thrombin and these values were reduced by ∼25-fold for the 336-V and 336-VI variants as compared with the WT FVIIIa value. Interestingly, this magnitude of rate reduction suggested a synergistic effect since rate values were reduced ∼14-fold for the D519V/E665V control and were essentially unaffected in the 336(P4-P3’)562 and A108I controls. FVIIIa inactivation by FXa was monitored by a one-stage clotting assay after FVIIIa was incubated with 5 nM FXa at 37ºC for a 30 min time course. FVIII 336-V and 336-VI variants showed similar resistance to inactivation by FXa (∼10-fold reduced rate compared with WT FVIIIa) as the 336(P4-P3’)562 control. FVIII D519V/E665V and A108I variants showed slightly reduced inactivation rates (∼1.1 and 1.6 fold) as compared with WT FVIII. Thrombin generation assays were performed using FVIII deficient plasma. Assays were run using 0.25 nM FVIII and 4 µM phospholipid vesicles, initiated with 0.25 pM tissue factor, and the amount of generated thrombin was calculated overtime by monitoring the development of fluorescent thrombin substrate peptide. FVIII 336-V and 336-VI variants generated comparable amounts of thrombin as FVIII D519V/E665V, showing ∼70% increases in endogenous thrombin potential (ETP), while the A108I and 336(P4-P3’)562 controls showed WT-like ETP values. Taken together, these results indicate that it is possible to combine the above gain-of-function FVIII mutations to yield FVIII variants such as the 336-VI form in order to generate a more stable procofactor as judged by improved thermal stability (∼5-fold relative to WT), enhanced retention of A2 subunit increasing FVIIIa stability (∼25 fold) and increased resistance to proteolytic inactivation (∼10 fold). The latter two attributes would potentially prolong FXase activity during clotting and this effect is suggested by the improved thrombin generation parameters for this variant. Disclosures: No relevant conflicts of interest to declare.

scholarly journals Combining mutations that modulate inter-subunit interactions and proteolytic inactivation enhance the stability of factor VIIIa

2014 ◽  
Vol 112 (07) ◽  
pp. 43-52 ◽  
Author(s):  
Hironao Wakabayashi ◽  
Jennifer M. Wintermute ◽  
Philip J. Fay
Keyword(s):  
Thermal Stability ◽  
Thrombin Generation ◽  
Resistant Mutant ◽  
Decay Rates ◽  
Single Type ◽  
Wild Type ◽  
Subunit Interactions ◽  
Factor Viiia ◽  
The Stability ◽  
A3 Subunit

SummaryFVIIIa is labile due to the dissociation of A2 subunit. Previously, we introduced hydrophobic mutations at select A1/A2/A3 subunit interfaces yielding more stable FVIII(a) variants. Separately we showed that altering the sequence flanking the primary FXa cleavage site in FVIIIa (Arg336) yielded reduced rates of proteolytic inactivation of FVIIIa. In this study we prepared the FXa-cleavage resistant mutant (336(P4-P3’)562) combined with mutations of Ala108Ile, Asp519Val/ Glu665Val or Ala108Ile/Asp519Val/Glu665Val and examined the effects of these combinations relative to FVIII thermal stability, rates of FVIIIa decay and proteolytic inactivation of FVIIIa by FXa. Thermal decay rates for 336(P4-P3’)562/Ala108Ile, 336(P4-P3’)562/Asp519Val/ Glu665Val, and 336(P4-P3’)562/Ala108Ile/Asp519Val/Glu665Val variants were reduced by ∼2– to 5-fold as compared with wild-type (WT) primarily reflecting the effects of the A domain interface mutations. FVIIIa decay rates for 336(P4-P3’)562/Asp519Val/Glu665Val and 336(P4-P3’)562/Ala108Ile/Asp519Val/Glu665Val variants were reduced by ∼25 fold, indicating greater stability than the control Asp519Val/Glu665Val variant (∼14-fold). Interestingly, 336(P4-P3’)562/Asp519Val/Glu665Val and 336(P4-P3’)562/Ala108Ile/ Asp519Val/Glu665Val variants showed reduced FXa-inactivation rates compared with the 336(P4-P3’)562 control (∼4-fold), suggesting A2 subunit destabilisation is a component of proteolytic inactivation. Thrombin generation assays using the combination variants were similar to the Asp519Val/Glu665Val control. These results indicate that combining multiple gain-of-function FVIII mutations yields FVIII variants with increased stability relative to a single type of mutation.

Persistant Inhibition of Thrombin Generation After Intravenous Administration of Enoxaparin in Primates.

Blood ◽  
2009 ◽  
Vol 114 (22) ◽  
pp. 2095-2095
Author(s):  
Evangelos Litinas ◽  
Angel Gray ◽  
Nasir Sadeghi ◽  
Josephine Cunanan ◽  
Debra Hoppensteadt ◽  
...  
Keyword(s):  
Thrombin Generation ◽  
Time Course ◽  
Conflicts Of Interest ◽  
Clinical Effects ◽  
Plasma Samples ◽  
Thrombin Inhibition ◽  
Biologic Effects ◽  
Antithrombotic Effects ◽  
Sustained Inhibition ◽  
Inhibition Of Thrombin

Abstract Abstract 2095 Poster Board II-72 The biologic half life (T12) of low molecular weight heparin (LMWH) is usually measured in terms of the circulating anti-Xa levels. Enoxaparin represents an unique LMWH whose biologic T12 is relatively longer than most LMWHs. Moreover, it is known that the antithrombotic effects of this agent last longer in comparison to the measurable circulating anti-Xa levels. Therefore besides the anti-Xa activity, additional non-measurable biologic effects are contributory to the clinical effects of this agent. Plasma based thrombin generation assays have recently become available to assess the effects of LMWHs such as enoxaparin. In these assays blood plasma samples are activated using different activators and the generated thrombin inhibition is measured. To measure the time course of thrombin generation inhibitory activity after an IV bolus dose of 0.5 mg/kg of enoxaparin into groups of primates (n=6-8), a commercially available thrombin generation method was employed (Technoclone, Vienna, Austria/DiaPharma, West Chester,OH). Blood samples were drawn from each of the primates injected at varying time points for up to 28 hours. A thromboplastin/phospholipids based reagent was used to generate thrombin and the results were recorded in terms of nm of thrombin formed. The baseline values ranged from 500-900 nm (710±60 nm), although a complete inhibition of thrombin generation was noted at 1 hour (24±8 nm), a slow and gradual reduction in the thrombin generation inhibition was noted with a T12 of 9 hours. Even at 28 hours after the administration of enoxaparin, sustained inhibition of thrombin generation was noted (30-50%). Interestingly, the circulating anti-Xa and anti-IIa activity gradually diminished to an almost non-detectable level at 6 hours. These studies suggest that enoxaparin produces antithrombotic actions by multiple mechanisms. Furthermore thrombin generation methods in plasma samples may provide a more sensitive assay for the monitoring of the effect of LMWH. Disclosures: No relevant conflicts of interest to declare.

Red-Cell Microparticles Released From Stored Packed Cells: Possible Contributing Factor to Adverse Responses to Transfusion

Blood ◽  
2010 ◽  
Vol 116 (21) ◽  
pp. 342-342 ◽  
Author(s):  
Wenche Jy ◽  
Carlos Bidot ◽  
Max E Johansen ◽  
Lawrence Horstman ◽  
Sherry Shariatmadar ◽  
...  
Keyword(s):  
Thrombin Generation ◽  
Time Course ◽  
Conflicts Of Interest ◽  
Blood Bank ◽  
Red Cells ◽  
Procoagulant Activity ◽  
Blood Type ◽  
Storage Lesion ◽  
Rate Of Increase ◽  
Proinflammatory Activity

Abstract Abstract 342 Background. Packed red cells (PC) stored in blood bank undergo a series of changes, so-called “storage lesion”, which increase with time. In view of some but not all recent studies, it is widely believed that transfusion with younger blood carries less risk of adverse reactions than older blood. However, there is no agreement on the “safe” age of blood, nor is it clearly understood why older blood may carry increased risks. The purpose of this study was to identify microparticle-related factors in stored PC at different time intervals that might pose risk of adverse effects. We investigated profiles of cell-derived microparticles (MP), particularly RBC-derived MP (RMP), in stored PC and assessed their procoagulant and inflammatory property. Methods. Twelve bags of fresh packed red cells (PC) of known blood types (A+, B+, AB+, O+) were obtained from blood bank (2-4 days since drawing). All were non-leuko depleted and were stored at 4°C. Time of receipt was considered day 0. At intervals of 0, 10, 20, and 30 days, 40 mL was withdrawn and centrifuged at 1000xg for 20 min to remove cells. The supernatants were then assayed for (1) quantity of different species of cell-derived MP by flow cyteometry comprising (a) RMP defined by CD235b; (b) LMP by CD45; (c) PMP by CD41; (d) EMP by CD144; (e) generic MP by Ulex Europaeus (Ulex) or Annexin V (AnV), (2) procoagulant activity by MP-mediated thrombin generation assay (TGA); (3) MP-mediated proinflammatory activity by CD 11b expression in neutrophils following incubation with RMP. Results. (1) MP Profiles. The time-course of generation of the MP subtypes varied considerably. For RMP, there was little increase before day 10, but then rose rapidly with time, to 180% at 20 days, and to 450% at 30 days. Small amounts of MP derived from leukocytes (LMP), platelets (PMP), and endothelia (EMP) were present in all bags at day 0, generally <10% by number compared to RMP. For LMP, there was no significant change in the first 20 days but was increased significantly at day 30, to 160% of day 0. For PMP, counts rose steadily from day 0 and peaked to 220% of baseline at day 20. For EMP, counts were very low (<1% of RMP) and no change was observed over 30 days. For total MP, defined by Ulex counts and total protein concentrations, the time course was similar to RMP. Results with AnV+ MP showed significant increase from day 10 to day 20. We found no influence of blood type on MP generation. (2) Procoagulant Activity. There was little change in MP-mediated thrombin generation in the first 10 days, but it rose significantly from day 10 to day 20, correlating well with counts of AnV+ MP or RMP. (3) Proinflammatory Activity. Leukocyte CD11b expression induced by MP from the PC bags showed a nearly linear rate of increase from day 0 to day 30, correlating closely with PMP. (4) Exceptions. In 2 of the 12 PC bags, we observed exceptionally high levels of both RMP and PMP (4-8 fold higher than average) from day 0 to day 30. CBC assay showed that all bags contained similar counts of RBC and WBC, with exception of high concentrations of platelets (>200,000/μL) in the two exceptional bags vs. the others (20,000 – 45,000/μL). In the two exceptional bags, coagulant activities and inflammatory potential were also highly elevated compared to the values in the other bags from day 0 to day 30. Conclusions. (i) RMP are the predominant MP species in stored RBC, increasing slowly from day 0 to 10 and thereafter rising exponentially to day 30. (ii) PMP were also present in significant amounts. The time course of RMP and PMP release correlated well with procoagulant and proinflammatory indicators in stored RBC. (iii) Two of the 12 bags (17%) exhibited exceptionally high platelet content and RMP, PMP. The significance of this new finding remains to be clarified. These preliminary results indicate that procoagulant, proinflammatory MP levels increased significantly after 10 days of storage, and that contaminating platelets exacerbate RMP generation. The increase in MP in stored PC constitutes one aspect of the storage lesion and may pose prothrombotic and/or proinflammatory risks in blood transfusions. (Supported by NIH Grant 5R01HL098031-02) Disclosures: No relevant conflicts of interest to declare.

The Effect of Factor IXa on Thrombin Generation Activity Determination: rFIXFc Vs. BeneFIX®

Blood ◽  
2011 ◽  
Vol 118 (21) ◽  
pp. 2266-2266
Author(s):  
Yang Buyue ◽  
Ekta Seth Chhabra ◽  
Li Wang ◽  
Jurg M Sommer
Keyword(s):  
Tissue Factor ◽  
Thrombin Generation ◽  
Time Course ◽  
Drug Product ◽  
Factor Ix ◽  
One Stage ◽  
Thrombin Generation Assay ◽  
Factor Ixa ◽  
Recombinant Factor Ix

Abstract Abstract 2266 Recombinant Factor IX Fc fusion (rFIXFc) was designed to be a long-lasting version of recombinant FIX that has the potential to provide less frequent dosing. This may be applicable to prophylaxis and on-demand therapy of hemophilia B and for control of bleeding during surgery. The potency of the rFIXFc drug product, as well as the commercially available recombinant factor IX, BeneFIX®, is assigned by a one-stage clotting assay. The thrombin generation assay (TGA), a global hemostasis assay that monitors the amount of active thrombin produced in patient plasma after recalcification, represents a useful indication in the evaluation of coagulation capacity of hemophilic plasma. When equal units of rFIXFc and BeneFIX, as determined by the one stage assay, were spiked into hemophilic plasma and their coagulation capacity was assessed by the TGA, BeneFIX generated 2-fold higher peak thrombin and significantly left-shifted thrombin curve relative to rFIXFc in the presence of limiting tissue factor and 4 μM phospholipids. In an assay control without tissue factor triggering, BeneFIX demonstrated considerable thrombogenic activity, whereas rFIXFc was essentially inactive. Since BeneFIX was observed to have a markedly higher level of FIXa impurity than rFIXFc in a factor IXa ELISA, and since factor IXa protease is known to be highly thrombogenic in an in vivo model, we hypothesized that the enhanced in vitro thrombin generation profile of BeneFIX may be due to the presence of excess factor IXa. BeneFIX was incubated overnight with a serine protease active site blocker, EGR-chloromethyl ketone, and dialyzed by extensive buffer exchange. The FIXa-blocked BeneFIX showed very similar thrombin generation profile (ETP, peak thrombin, time course and slope) to rFIXFc, confirming the role of FIXa in thrombin generation by BeneFIX. To quantify the amount of active factor IXa in BeneFIX and rFIXFc, a plasma-derived factor IXa (pFIXa) standard curve was constructed by spiking increasing concentrations of factor IXa (0–100 pM) into human factor IX-deficient plasma in the presence of 4 μM phospholipids. Prior to starting the measurement, 5 nM thrombin was added to the assay in order to improve sensitivity. A dose response was observed with a detection limit as low as 0.5 pM pFIXa in FIX-deficient plasma. BeneFIX, FIXa-blocked BeneFIX and rFIXFc of equal potency (1 IU/mL by the one-stage clotting assay) generated thrombin responses comparable to 20 pM, 1 pM and 2 pM pFIXa, respectively, indicating the amount of FIXa present in each FIX product. In a regular thrombin generation assay triggered with limiting tissue factor, 1 IU/mL rFIXFc supplemented with 20 pM pFIXa demonstrated an equal peak thrombin and velocity index to 1 IU/mL BeneFIX. These data suggest that: 1) Minor amounts of FIXa protease in a FIX drug product (0.1%) can trigger significant thrombin generation in global hemostasis assays 2) Thrombin generation assay could be used to evaluate FIXa level in FIX products with high sensitivity (0.5 pM FIXa per IU/ml FIX) 3) the higher peak thrombin and shortened time course in the thrombin generation profile for BeneFIX relative to rFIXFc is caused entirely by the presence of factor IXa in the drug product 4) Discounting the rFIXa impurities in these drug products, BeneFIX and rFIXFc have equivalent in vitro thrombin generation activity per unit of FIX activity. Disclosures: Buyue: Biogen Idec Hemophilia: Employment. Seth Chhabra:Biogen Idec Hemophilia: Employment. Wang:Biogen Idec Hemophilia: Employment. Sommer:Biogen Idec Hemophilia: Employment.

Plasma Factor V Activation Is Prevented by Activated Protein C in the Presence of Phospholipid Vesicles, Not Platelets

1993 ◽  
Vol 69 (02) ◽  
pp. 124-129 ◽  
Author(s):  
Susan Solymoss ◽  
Kim Thi Phu Nguyen
Keyword(s):  
Western Blotting ◽  
Protein C ◽  
Thrombin Generation ◽  
Blood Platelets ◽  
Activated Protein C ◽  
Phospholipid Vesicles ◽  
Factor V ◽  
Two Stage ◽  
One Stage ◽  
Plasma Factor

SummaryActivated protein C (APC) is a vitamin K dependent anticoagulant which catalyzes the inactivation of factor Va and VIIIa, in a reaction modulated by phospholipid membrane surface, or blood platelets. APC prevents thrombin generation at a much lower concentration when added to recalcified plasma and phospholipid vesicles, than recalcified plasma and platelets. This observation was attributed to a platelet associated APC inhibitor. We have performed serial thrombin, factor V one stage and two stage assays and Western blotting of dilute recalcified plasma containing either phospholipid vesicles or platelets and APC. More thrombin was formed at a given APC concentration with platelets than phospholipid. One stage factor V values increased to higher levels with platelets and APC than phospholipid and APC. Two stage factor V values decreased substantially with platelets and 5 nM APC but remained unchanged with phospholipid and 5 nM APC. Western blotting of plasma factor V confirmed factor V activation in the presence of platelets and APC, but lack of factor V activation with phospholipid and APC. Inclusion of platelets or platelet membrane with phospholipid enhanced rather than inhibited APC catalyzed plasma factor V inactivation. Platelet activation further enhanced factor V activation and inactivation at any given APC concentration.Plasma thrombin generation in the presence of platelets and APC is related to ongoing factor V activation. No inhibition of APC inactivation of FVa occurs in the presence of platelets.

In vitro effects of human neutrophil cathepsin G on thrombin generation: Both acceleration and decreased potential

2010 ◽  
Vol 104 (09) ◽  
pp. 514-522 ◽  
Author(s):  
Thomas Lecompte ◽  
Agnès Tournier ◽  
Lise Morlon ◽  
Monique Marchand-Arvier ◽  
Claude Vigneron ◽  
...  
Keyword(s):  
Tissue Factor ◽  
Thrombin Generation ◽  
Time Course ◽  
Anticoagulant Activity ◽  
Cathepsin G ◽  
Coagulation Cascade ◽  
Clotting Factor ◽  
Factor V ◽  
Clotting Factors

SummaryCathepsin G (Cath G), a serine-protease found in neutrophils, has been reported to have effects that could either facilitate or impede coagulation. Thrombin generation (CAT method) was chosen to study its overall effect on the process, at a plasma concentration (240 nM) observed after neutrophil activation. Coagulation was triggered by tissue factor in the presence of platelets or phospholipid vesicles. To help identify potential targets of Cath G, plasma depleted of clotting factors or of inhibitors was used. Cath G induced a puzzling combination of two diverging effects of varying intensities depending on the phospholipid surface provided: accelerating the process under the three conditions (shortened clotting time by up to 30%), and impeding the process during the same thrombin generation time-course since thrombin peak and ETP (total thrombin potential) were decreased, up to 45% and 12%, respectively, suggestive of deficient prothrombinase. This is consistent with Cath G working on at least two targets in the coagulation cascade. Our data indicate that coagulation acceleration can be attributed neither to platelet activation and nor to activation of a clotting factor. When TFPI (tissue factor pathway inhibitor) was absent, no effect on lag time was observed and the anticoagulant activity of TFPI was decreased in the presence of Cath G. Consistent with the literature and the hypothesis of deficient prothrombinase, experiments using Russel’s Viper Venom indicate that the anticoagulant effect can be attributed to a deleterious effect on factor V. The clinical relevance of these findings deserves to be studied.

scholarly journals Response of Serum Proteome in Patients Undergoing Infrarenal Aortic Aneurysm Repair

2009 ◽  
Vol 111 (4) ◽  
pp. 844-854 ◽  
Author(s):  
Pietro Amedeo Modesti ◽  
Tania Gamberi ◽  
Cristina Bazzini ◽  
Marina Borro ◽  
Salvatore Mario Romano ◽  
...  
Keyword(s):  
Aortic Aneurysm ◽  
Thrombin Generation ◽  
Time Course ◽  
Ventricular Myocytes ◽  
Contractile Function ◽  
Hemodynamic Instability ◽  
Inhibitory Response ◽  
Early Postoperative Period ◽  
Infrarenal Aortic Aneurysm ◽  
Time Interaction

Background Postoperative organ dysfunction in conventional surgery for abdominal aortic aneurysm (AAA) is associated with a complex inflammatory reaction, with activation of coagulation and fibrinolysis. A prospective,observational study was performed to define the complex plasma proteomic changes after AAA repair and to identify factor(s) that may affect myocardial function in uncomplicated procedures. Methods Ten patients undergoing infrarenal AAA repair were investigated. Eight subjects subjected to major abdominal surgery served as controls. Hemodynamic changes were continuously monitored by using the pressure recording analytical method technique. The time course of plasma proteins was investigated after induction of anesthesia and at different times after surgery (6 h, 12 h, 24 h, 36 h) by using two-dimensional difference gel electrophoresis, matrix-assisted laser desorption/ionization-time of flight mass spectrometry, and Western blot. The effects of plasma on the functional properties of isolated rat ventricular myocytes were also investigated. Results In AAA patients alone, 18 spots were found to change more than two-fold in expression level, spot identification revealing an increased thrombin generation 6 h after surgery. At the same time cardiac cycle efficiency significantly reduced versus baseline (-0.5 +/- 0.9 vs. 0.18 +/- 0.3 in AAA patients, P &lt; 0.01; 0.4 +/- 0.1 vs. 0.2 +/- 0.3 in control surgery, not significant; P &lt; 0.01 group x time interaction at ANOVA). Plasma obtained 6 h after AAA surgery dose-dependently inhibited contractile function of control rat myocytes (percent shortening fell by 51% with 10% of AAA plasma and was abolished with 20% of AAA plasma, P &lt; 0.001 for both). The inhibitory response was abolished by thrombin antagonism. Conclusions These findings show for the first time the possible role of thrombin generation within the complex activation of inflammatory response in causing hemodynamic instability in the early postoperative period after AAA surgery.

Mild Hemophilia A Caused by Increased Rate of Factor VIII A2 Subunit Dissociation: Evidence for Nonproteolytic Inactivation of Factor VIIIa In Vivo

Blood ◽  
1999 ◽  
Vol 93 (1) ◽  
pp. 176-183 ◽  
Author(s):  
S.W. Pipe ◽  
A.N. Eickhorst ◽  
S.H. McKinley ◽  
E.L. Saenko ◽  
R.J. Kaufman
Keyword(s):  
Factor Viii ◽  
Missense Mutation ◽  
Time Course ◽  
Hemophilia A ◽  
Specific Activity ◽  
Metabolic Labeling ◽  
Two Stage ◽  
One Stage ◽  
Thrombin Cleavage

Abstract Approximately 5% of hemophilia A patients have normal amounts of a dysfunctional factor VIII (FVIII) protein and are termed cross-reacting material (CRM)-positive. FVIII is a heterodimer (domain structure A1-A2-B/A3-C1-C2) that requires thrombin cleavage to elicit procoagulant activity. Thrombin-activated FVIII is a heterotrimer with the A2 subunit (amino acid residues 373 to 740) in a weak ionic interaction with the A1 and A3-C1-C2 subunits. Dissociation of the A2 subunit correlates with inactivation of FVIII. Recently, a phenotype of CRM-positive hemophilia A patients has been characterized whose plasma displays a discrepancy between their FVIII activities, where the one-stage clotting assay displays greater activity than the two-stage clotting assay. One example is a missense mutation whereARG531 has been substituted by HIS531. An FVIII cDNA construct was prepared containing theARG531HIS mutation and the protein was expressed in COS-1 monkey cells by transient DNA transfection. Metabolic labeling with [35S]-methionine demonstrated that ARG531HIS was synthesized at an equal rate compared with FVIII wild-type (WT) but had slightly reduced antigen in the conditioned medium, suggesting a modest secretion defect. A time course of structural cleavage of ARG531HISdemonstrated identical thrombin cleavage sites and rates of proteolysis as FVIII WT. Similar to the patient phenotypes,ARG531HIS had discrepant activity as measured by a one-stage activated partial thromboplastin time (aPTT) clotting assay (36% ± 9.6% of FVIII WT) and a variation of the two-stage assay using a chromogenic substrate (COAMATIC; 19% ± 6.9% of FVIII WT). Partially purified FVIII WT and ARG531HISproteins were subjected to functional activation by incubation with thrombin. ARG531HIS demonstrated significantly reduced peak activity and was completely inactivated after 30 seconds, whereas FVIII WT retained activity until 2.5 minutes after activation. Because the ARG531HIS missense mutation predicts a charge change to the A2 subunit, we hypothesized that theARG531HIS A2 subunit could be subject to more rapid dissociation from the heterotrimer. The rate of A2 dissociation, using an optical biosensor, was determined to be fourfold faster forARG531HIS compared with FVIII WT. Because the two-stage assay involves a preincubation phase before assay measurement, an increased rate of A2 dissociation would result in an increased rate of inactivation and reduced specific activity.

Feedback Activation of Factor XI by Thrombin Is Essential for Hemostasis In Vivo.

Blood ◽  
2009 ◽  
Vol 114 (22) ◽  
pp. 2127-2127
Author(s):  
Henri M. H. Spronk ◽  
Sabine Wilhelm ◽  
Rene Van Oerle ◽  
Menno L. Knetsch ◽  
David Gailani ◽  
...  
Keyword(s):  
Thrombin Generation ◽  
Conflicts Of Interest ◽  
Factor Viia ◽  
Fibrin Clot ◽  
Intrauterine Death ◽  
Factor Xii ◽  
Dependent Manner ◽  
Factor Xi ◽  
Feedback Activation

Abstract Abstract 2127 Poster Board II-102 Background: The revised model of coagulation proposes that factor XI (FXI) can be activated by thrombin, which is generated upon activation of the tissue factor (TF) pathway. This concept, however, has not been tested in vivo. A recent study questioned the existence of this feedback loop and suggested that factor XII (FXII) is the sole activator of FXI. Here, we analyze the feedback activation of FXI in plasma and in genetically altered mice. Methods and results: Fluorescence-based assays indicated that particle-bound thrombin caused thrombin generation in plasma both in the absence of TF and in the presence of active site inhibited factor VIIa. Thrombin failed to activate FXII and thrombin generation was almost completely abolished by an anti-FXIa antibody and in FXI-deficient plasma. Surface bound thrombin induced complex formation of FXI, with its major inhibitor C1 inhibitor, even in FXII-deficient plasma in a time and dose dependent manner. To determine if thrombin-driven FXI activation is important for hemostasis in vivo we used TF deficient mice (low TF), which have severely reduced thrombin formation. Low TF mice were crossed with mice deficient in one of the intrinsic pathway proteases FXII, FXI, or FIX. Double deficiency in TF and either FIX or FXI resulted in the intrauterine death of embryos due to hemorrhage. In contrast low TF/FXII-null mice were viable and the bleeding phenotype was unchanged from low TF animals. Conclusions: Surface-bound thrombin, a model for fibrin clot-protected thrombin, generates thrombin in a FXI dependent manner, independently from FXII. In addition to corroborating an amplifying role of FXI in thrombin generation, we provide the first evidence that at low TF levels FXI is essential in generating a sufficient ambient level of thrombin to permit embryonic development. Disclosures: No relevant conflicts of interest to declare.

Pharmacodynamic Differences of An Anti-Xa Enriched Low Molecular Weight Heparin, AVE 5026 in Comparison to Enoxaparin and Unfractionated Heparin.

Blood ◽  
2009 ◽  
Vol 114 (22) ◽  
pp. 4171-4171
Author(s):  
Debra Hoppensteadt ◽  
Angel Gray ◽  
Evangelos Litinas ◽  
Brigitte Kaiser ◽  
Jawed Fareed
Keyword(s):  
Molecular Weight ◽  
Unfractionated Heparin ◽  
Half Life ◽  
Low Molecular Weight Heparin ◽  
Thrombin Generation ◽  
Time Course ◽  
Fold Increase ◽  
Low Molecular Weight ◽  
Thrombin Time ◽  
Primate Model

Abstract Abstract 4171 AVE5026 (Sanofi-Aventis, Paris, France) represents an anti-Factor (F) Xa enriched ultra low molecular weight heparin (ULMWH) (Mw=2.4 Kda; anti-FXa activity ∼160 U/mg). In comparison to Enoxaparin it has a lower anti-FIIa activity (∼2 U/mg). The oligosaccharide composition of AVE5026 also differs from Enoxaparin and other LMWHs. Besides the molecular and compositional differences, the biologic half-life of AVE5026 (18-20 hours) is significantly longer than Enoxaparin (4-6 hours). In order to compare the other pharmacodynamic differences between AVE5026, Enoxaparin and unfractionated heparin (UFH), a primate model (macaca mulatto) was used since its tissue factor pathway inhibitor (TFPI) profile is comparable to the human response. Individual groups of primates (n=6) were administered with 1 mg/kg SC of either AVE5026, Enoxaparin or UFH. Heptest and APTT measurements were determined on whole blood (WB) and plasma was analyzed for APTT, Heptest, thrombin time (TT), anti-FXa and anti-FIIa effects at varying periods up to 28 hours. TFPI antigen was measured using the assay from Stago (Parsipanny, NJ). Functional TFPI measurements were determined using the kit from American Diagnostica (Stamford, CT). In contrast to UFH, in the WB assays, neither the AVE5026 nor the Enoxaparin produced a strong effect on the APTT and TT, however both demonstrated a strong effect on the heptest assay. AVE5026 produced a much stronger effect with a longer half-life (T½=11 hrs) in comparison to Enoxaparin (T½=6 hrs). In the plasma based systems only UFH produced a measurable effect on the APTT and TT. However, in the heptest and anti-FXa assays, both AVE5026 and Enoxaparin produced a stronger effect, which was much longer with AVE5026 (2-3 fold increase). The plasma time course of TFPI antigen release was longer with AVE5026 in comparison to Enoxaparin and UFH. The ratios of immunologic to functional TFPI levels were also higher in the primates administered with AVE 5026. In the thrombin generation test, AVE5026 produced a sustained effect which lasted longer than Enoxaparin (T½ =16.8 hrs vs. 9.2 hrs.). These results show that AVE5026 produces stronger anti-FXa effects in primates which are associated with a higher circulating level of TFPI and more pronounced suppression of thrombin generation compared to Enoxaparin and UFH. Disclosures: Hoppensteadt: Sanofi-Aventis: Research Funding.

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