In Vivo Evidence of Modulation of the Hemophilia Phenotype by the Factor V Leiden.

Blood ◽  
2004 ◽  
Vol 104 (11) ◽  
pp. 693-693
Author(s):  
Alexander Schlachterman ◽  
Jianhua Liu ◽  
Yi-Lin Liu ◽  
Katherine High ◽  
Valder Arruda
Keyword(s):  
Factor Viii ◽  
Thrombus Formation ◽  
Factor V Leiden ◽  
Factor Ix ◽  
Platelet Glycoprotein ◽  
Factor V ◽  
Severe Hemophilia ◽  
Fvl Mutation

Abstract The amelioration of hemophilia phenotype or delayed onset of the bleeding episodes in subjects with severe hemophilia A (FVIII deficiency) has been associated with inherited resistance to activated protein C due to factor V Leiden (R506Q), FVL. These observations were confirmed by in vitro systems in which homozygous phenotype of FVL increased thrombin formation in presence of < 1% FVIII by nearly 5-fold (Blood 90:3067). Here we provide in vivo evidence of the beneficial interaction of FVL on the hemophilia phenotype in mice. Animals with severe deficiency of factor VIII due to deletion of intron 16 of factor VIII gene (HA) or large gene deletion of factor IX (HB) were crossed with FVL homozygous mice [+/+] on C57Bl6 strain [Cui et al. (Blood 96:4222)] We used a modified activated partial thromboplastin time (aPTT) assay to compared clotting times among male HA (n=30), HA/FVL [+/+] (n=7), FVL [+/+] (n=5), and litermate WT mice (n=6) with age ranging from 6–12 weeks. Blood samples were collected by tail vein transection into 3.8% sodium citrate. Values for the aPTT in male HA were 67.3 ± 4 sec, and among WT or FVL [+/+] values were 37 ± 4 sec or 31± 2 sec, respectively. Whereas intermediate aPTT values of 53 ± 3.7 sec were determined in HA/FVL [+/+], which differs from HA mice (p<0.0001) but also from WT or FVL (p<0.0001). A similar shortening of aPTT was also determined among HB/FVL[+/+] which were compared to HB, 55 ± 7 sec vs. 64 ± 0.9. Hemostatic challenge by tail clipping assay failed to revealed differences in bleeding times/blood loss among hemophilia animals with or without FVL mutation. To test whether a more sensitive technique would provide further evidence of the improved hemostasis in HA/FVL mice, we assessed real-time in vivo thrombus formation by confocal and widefield microscopy. Mice were anesthetized and the cremaster muscle was exposed for intravital microscopy. Infusion of fluorescently labeled antibody to murine platelet glycoprotein IIb/IIIa complex via the jugular vein allowed monitoring of platelet deposition upon laser-mediated endothelial injury at several sites of the arterial vessel wall. No thrombus formation was observed in severe HA mice following successive vascular injuries, a finding also common in severe HB mice. However, infusion of factor VIII concentrated clearly induced the thrombi formation upon vascular injury. HA/FVL mice tested presented thrombus formation in a comparable fashion of HA-FVIII transfused mice. These in vivo data provide support to the hypothesis that the FVL mutation has the potential to improve the phenotype of severe hemophilia and may offer a novel therapeutic target for hemophilia.

A Comparison of the in Vitro and in Vivo Thrombogenic Activity of Factor IX Concentrates Using Stasis (Wessler) and Non-Stasis Rabbit Models

1980 ◽  
Vol 44 (02) ◽  
pp. 081-086 ◽  
Author(s):  
C V Prowse ◽  
A E Williams
Keyword(s):  
Platelet Rich Plasma ◽  
Thrombus Formation ◽  
Factor Ix ◽  
Coagulation System ◽  
In Vitro Tests ◽  
Clinical Use ◽  
Low Activity

SummaryThe thrombogenic effects of selected factor IX concentrates were evaluated in two rabbit models; the Wessler stasis model and a novel non-stasis model. Concentrates active in either the NAPTT or TGt50 in vitro tests of potential thrombogenicity, or both, caused thrombus formation in the Wessler technique and activation of the coagulation system in the non-stasis model. A concentrate with low activity in both in vitro tests did not have thrombogenic effects in vivo, at the chosen dose. Results in the non-stasis model suggested that the thrombogenic effects of factor IX concentrates may occur by at least two mechanisms. A concentrate prepared from platelet-rich plasma and a pyrogenic concentrate were also tested and found to have no thrombogenic effect in vivo.These studies justify the use of the NAPTT and TGt50 in vitro tests for the screening of factor IX concentrates prior to clinical use.

The Natural Course of Defibrination Syndrome Caused by Echis Colorata Venom in Man

1974 ◽  
Vol 31 (03) ◽  
pp. 420-428 ◽  
Author(s):  
M Fainaru ◽  
S Eisenberg ◽  
N Manny ◽  
C Hershko
Keyword(s):  
Factor Viii ◽  
Blood Coagulation ◽  
Major Bleeding ◽  
Renal Damage ◽  
Specific Treatment ◽  
Natural Course ◽  
Factor V ◽  
Thrombocyte Count

SummaryThe natural course of defibrination syndrome caused by Echis colorata venom (ECV) in five patients is reported. All patients developed afibrinogenemia within six hours after the bite. Concomitantly a depression in factor V was recorded. Factor VIII and thrombocyte count in blood were normal in most patients. In the light of the known effects of ECV on blood coagulation in vivo and in vitro it is concluded that the afibrinogenemia is due to intravascular clotting.Four patients had transient renal damage, manifested by oliguria, azotemia, albuminuria and cylindruria, ascribed to microthrombi in the renal glomeruli.After the bite, the natural course was benign, no major bleeding was observed, and all signs of coagulopathy reverted to normal within 7 days. Therefore we recommend no specific treatment for this condition. In the case of heavily bleeding patients, administration of antiserum against ECV and/or heparin should be considered.

The procoagulant effects of factor V Leiden may be balanced against decreased levels of factor V and do not reflect in vivo thrombin formation in newborns

2006 ◽  
Vol 95 (03) ◽  
pp. 434-440 ◽  
Author(s):  
Satu Hyytiäinen ◽  
Ulla Wartiovaara-Kautto ◽  
Veli-Matti Ulander ◽  
Risto Kaaja ◽  
Markku Heikinheimo ◽  
...  
Keyword(s):  
Tissue Factor ◽  
Platelet Rich Plasma ◽  
Venous Blood ◽  
Factor V Leiden ◽  
Factor V ◽  
Cord Plasma ◽  
Adult Plasma ◽  
Thrombin Formation

SummaryThrombin regulation in newborns remains incompletely understood.We studied tissue factor-initiated thrombin formation in cord plasma in vitro, and the effects of Factor VLeiden (FVL) heterozygosity on thrombin regulation both in vitro and in vivo in newborns. Pregnant women with known thrombophilia (n=27) were enrolled in the study. Cord blood and venous blood at the age of 14 days were collected from 11 FVL heterozygous newborns (FVL-positive) and from 16 FVL-negative newborns. Prothrombin fragment F1+2 and coagulation factors were measured. Tissue factor-initiated thrombin formation was studied in cord platelet-poor plasma (PPP) of FVL-negative and -positive newborns, and in both PPP and platelet-rich plasma (PRP) of healthy controls. The endogenous thrombin potential (ETP) in cord PPP or PRP was ∼60% of that in adult plasma, while thrombin formation started ∼55% and ∼40% earlier in cord PPP and PRP, respectively. Further, in FVL-positive newborns thrombin formation started significantly earlier than in FVL-negative newborns. Exogenous activated protein C (APC) decreased ETP significantly more in cord than in adult PRP. In FVL-negative cord plasma 5nM APC decreased ETP by 17.4±3.5% (mean±SEM) compared with only 3.5±3.8% in FVL-positive cord plasma (p=0.01). FVL-positive newborns showed similar levels of F1+2 but significantly decreased levels of factor V compared with FVL negative newborns both in cord plasma (FV 0.82±0.07 U/ml vs. 0.98±0.05 U/ml, p=0.03) and at the age of two weeks (FV 1.15±0.04 U/ml vs. 1.32±0.05 U/ml, p=0.03). In conclusion, newborn plasma showed more rapid thrombin formation and enhanced sensitivity to APC compared with adult plasma. FVL conveyed APC resistance and a procoagulant effect in newborn plasma. Lack of elevated F1+2 levels in FVL-positive infants, however, suggested the existence of balancing mechanisms; one could be the observed lower level of factor V in FVL heterozygous newborns.

A Non-Stasis Rabbit Model for the Detection of Factor IX Concentrate Thrombogenicity.

1979 ◽  
Author(s):  
C.V. Prowse ◽  
A.R. Williams
Keyword(s):  
Platelet Count ◽  
Factor Viii ◽  
Partial Thromboplastin Time ◽  
Rabbit Model ◽  
Factor Ix ◽  
In Vitro Activity ◽  
Blood Samples ◽  
Intravascular Coagulation

A method has been developed whereby aerial blood samples can be obtained from a rabbit over a period of four hours following infusion of potentially thrombogenic solutions. Infusion of 50 uAg thrombin over JO minutes produced intravascular coagulation for up to three hours after infusion as demonstrated by a decrease in factor VIII, increase in partial thromboplastin time and fibrin(ogen) degradation producta and a positive ethanol gelation teat. No change in fibrinogen, factor DC or platelet count was found. Saline infusion produced no change in any of these parameters.Infusion of a variety of factor IX concentrates at 100 u/kg shewed that those concentrates active in in vitro thrombogenicity teste produced a similar effect to thrombin in vivo and in addition may result in a drop in platelet count. Infesion of concentrates with low in vitro activity did not induce intravascular coagulation.

Most Factor VIII B Domain Missense Mutations Are Unlikely to Be Causative Mutations for Hemophilia A: Implications for Factor VIII Genetic Analysis

Blood ◽  
2008 ◽  
Vol 112 (11) ◽  
pp. 513-513
Author(s):  
Kyoichi Ogata ◽  
Steven W. Pipe
Keyword(s):  
Amino Acid ◽  
Factor Viii ◽  
Hemophilia A ◽  
Coagulation Factor ◽  
Causative Mutation ◽  
Factor V ◽  
Missense Mutations ◽  
Severe Hemophilia ◽  
Single Chain

Abstract Hemophilia A results from the quantitative or qualitative deficiency of coagulation factor VIII (FVIII). FVIII is synthesized as a single-chain polypeptide of approximately 280 kDa with the domain structure A1-A2-B-A3-C1-C2. Whereas the A and C domains exhibit ~40% amino acid identity to each other and to the A and C domains of coagulation factor V, the B domain is not homologous to any known protein and is dispensable for FVIII cofactor activity. Missense mutations in the FVIII B domain have been described in patients with variable phenotypes of hemophilia A. According to the NCBI SNPs (single nucleotide polymorphism) database, 22 SNPs are reported within FVIII, 11 of which occur within the B domain. FVIII B domain variant D1241E has been reported as a missense mutation associated with mild or severe hemophilia A, yet this mutation is also present in the NCBI SNPs database. We hypothesize that D1241E and most other reported B domain missense mutations are not the causative mutation for hemophilia A in these patients but represent SNPs or otherwise non-pathologic mutations. To investigate this, we analyzed 7 B domain missense mutations that were previously found in hemophilia A patients (T751S, V993L, H1047Y, D1241E, T1353A, P1641L and S1669L). Comparative analysis showed that the amino acids at these positions are not conserved in all species and in some cases, the amino acid substitution reported in hemophilia patients is represented in the native sequence in other species. Analysis with PolyPhen Software showed that only H1047Y mutation was considered as “possibly damaging”, while the others were considered as “benign”. To investigate this further, we constructed seven plasmid vectors containing these B domain missense mutations. The synthesis and secretion of FVIII wild-type (WT) and these seven mutants were compared after transient DNA transfection into COS-1 monkey cells in vitro. Analysis of the FVIII clotting activity and antigen levels in the conditioned medium demonstrated that all mutants had FVIII activity and antigen levels similar to FVIII WT. Further, FVIII WT, H1047Y and D1241E mutants were introduced into a FVIII exon 16 knock-out mouse model of hemophilia A by hydrodynamic tailvein injection in vivo. The mouse plasma was analyzed at 24 hrs for activity and antigen expression. Mutants H1047Y and D1241E expressed at 211 mU/mL and 224 mU/mL activity with FVIII antigen levels of 97 ng/mL and 118 ng/mL, respectively, similar to FVIII WT. These results suggested that H1047Y and D1241E mutants did not lead to impairments in secretion or functional activity. We conclude that most missense mutations within the FVIII B domain would be unlikely to lead to severe hemophilia A and that the majority of such missense mutations represent polymorphisms or non-pathologic mutations. Investigators should search for additional potentially causative mutations elsewhere within the FVIII gene when B domain missense mutations are identified.

Characterization Of The In Vitro “Factor VIII Bypassing Activity”

1981 ◽  
Author(s):  
D L Aronson ◽  
J Bagley
Keyword(s):  
Factor Viii ◽  
Early Stage ◽  
Deae Cellulose ◽  
Factor Ix ◽  
Factor Xii ◽  
Factor V ◽  
Factor X ◽  
Hemostatic Effect ◽  
Prolonged Aptt

The in vitro correction of the prolonged APTT of hemophilic plasma has been ascribed to an uncharacterized entity “Factor VIII Bypassing Activity.” Such products also correct the prolonged APTT plasma deficient in Factor IX, Factor X and Factor XII, but not of Factor V deficient plasma. Correction of the APTT in Factor VIII deficient plasma by early stage coagulants such as Factor XIIa, Kallikrein and Factor IXa is minimal. These results indicate that this in vitro activity acts at the level of either the activation of Factor X or the activation of prothrombin.A coagulant has been prepared from serum by barium precipitation, heparin-agarose, DEAE cellulose and high pressure liquid chromatography (HPLC). The in vitro coagulant properties are similar to “activated” prothrombin complex (Autoplex) and the biologic and chemical properties are identical to activated Factor X.Infusion of the partially purified serum coagulant into normal dogs was well tolerated and, in contrast to Factor IX concentrates, gave no signs of DIC. Infusion into bleeding hemophilic dogs had no hemostatic effect. It is concluded that a major portion of the in vitro potency of activated prothrombin concentrates is due to activated Factor X, a material which when infused has no in vivo hemostatic effect.Acknowledgments - The authors gratefully acknowledge the studies of Dr. Henry Kingdon in hemophilic dogs.

Cyclophilin A is an important mediator of platelet function by regulating integrin αIIbβ3 bidirectional signalling

2014 ◽  
Vol 111 (05) ◽  
pp. 873-882 ◽  
Author(s):  
Mark Sowden ◽  
Yingqian Xu ◽  
Kristina Modjeski ◽  
Padmamalini Baskaran ◽  
Yeonghwan Kim ◽  
...  
Keyword(s):  
Platelet Function ◽  
Thrombus Formation ◽  
Cyclophilin A ◽  
Platelet Glycoprotein ◽  
Ros Production ◽  
Ppiase Activity ◽  
Isomerase Activity ◽  
Important Mediator

SummaryCyclophilin A (CyPA) is an important mediator in cardiovascular diseases. It possesses peptidyl-prolyl cis-trans isomerase activity (PPIase) and chaperone functions, which regulate protein folding, intracellular trafficking and reactive oxygen species (ROS) production. Platelet glycoprotein receptor αIIbβ3 integrin activation is the common pathway for platelet activation. It was our objective to understand the mechanism by which CyPA-regulates αIIbβ3 activation in platelets. Mice deficient for CyPA (CyPA−/−) had prolonged tail bleeding time compared to wild-type (WT) controls despite equivalent platelet numbers. In vitro studies revealed that CyPA−/− platelets exhibited dramatically decreased thrombin-induced platelet aggregation. In vivo, formation of occlusive thrombi following FeCl3 injury was also significantly impaired in CyPA−/− mice compared with WT-controls. Furthermore, CyPA deficiency inhibited flow-induced thrombus formation in vitro. Flow cytometry demonstrated that thrombin-induced ROS production and αIIbβ3 activation were reduced in CyPA−/− platelets. Coimmunoprecipitation studies showed ROS-dependent increased association of CyPA and αIIbβ3. This association was dependent upon the PPIase activity of CyPA. Significantly, fibrinogen-platelet binding, platelet spreading and cytoskeleton reorganisation were also altered in CyPA−/− platelets. Moreover, CyPA deficiency prevented thrombin-induced αIIbβ3 and cytoskeleton association. In conclusion, CyPA is an important mediator in platelet function by regulation of αIIbβ3 bidirectional signalling through increased ROS production and facilitating interaction between αIIbβ3 and the cell cytoskeleton.

scholarly journals Platelet interaction with activated endothelium: mechanistic insights from microfluidics

Blood ◽  
2017 ◽  
Vol 130 (26) ◽  
pp. 2819-2828 ◽  
Author(s):  
Daniëlle M. Coenen ◽  
Tom G. Mastenbroek ◽  
Judith M. E. M. Cosemans
Keyword(s):  
Molecular Mechanisms ◽  
Thrombus Formation ◽  
Flow Chamber ◽  
Coagulation System ◽  
Intercellular Adhesion Molecule ◽  
Platelet Glycoprotein ◽  
Intercellular Adhesion Molecule 1 ◽  
Chamber Studies

Abstract Traditionally, in vitro flow chamber experiments and in vivo arterial thrombosis studies have been proved to be of vital importance to elucidate the mechanisms of platelet thrombus formation after vessel wall injury. In recent years, it has become clear that platelets also act as modulators of inflammatory processes, such as atherosclerosis. A key element herein is the complex cross talk between platelets, the coagulation system, leukocytes, and the activated endothelium. This review provides insight into the platelet-endothelial interface, based on in vitro flow chamber studies and cross referenced with in vivo thrombosis studies. The main mechanisms of platelet interaction with the activated endothelium encompass (1) platelet rolling via interaction of platelet glycoprotein Ib-IX-V with endothelial-released von Willebrand factor with a supporting role for the P-selectin/P-selectin glycoprotein ligand 1 axis, followed by (2) firm platelet adhesion to the endothelium via interaction of platelet αIIbβ3 with endothelial αvβ3 and intercellular adhesion molecule 1, and (3) a stimulatory role for thrombin, the thrombospondin-1/CD36 axis and cyclooxygenase 1 in subsequent platelet activation and stable thrombus formation. In addition, the molecular mechanisms underlying the stimulatory effect of platelets on leukocyte transendothelial migration, a key mediator of atheroprogression, are discussed. Throughout the review, emphasis is placed on recommendations for setting up, reporting, interpreting, and comparing endothelial-lined flow chamber studies and suggestions for future studies.

Effect of the Factor V Leiden Mutation on the Clinical Expression of Severe Hemophilia A

2000 ◽  
Vol 83 (03) ◽  
pp. 387-391 ◽  
Author(s):  
I.R. Walker ◽  
J. Teitel ◽  
M.-C. Poon ◽  
B. Ritchie ◽  
J. Akabutu ◽  
...  
Keyword(s):  
Factor Viii ◽  
Hemophilia A ◽  
Geometric Mean ◽  
Factor V Leiden ◽  
Significant Variable ◽  
Factor V ◽  
Severe Hemophilia ◽  
Factor V Leiden Mutation ◽  
Bleeding Episodes ◽  
Factor Concentrate

SummaryTo determine whether the factor V Leiden mutation is associated with decreased bleeding in individuals with severe hemophilia A, factor concentrate utilization, maximum annual number of bleeding episodes, and the prevalence of hemophilic arthropathy between carriers and non-carriers of the factor V Leiden mutation were compared. Heterozygosity for the factor V Leiden mutation was found in 6 of 137 subjects (4.4%). Carriers of the factor V Leiden mutation utilized less factor concentrate (geometric mean: 310 vs. 1185 units/kg/year) and had fewer bleeding episodes than non-carriers (proportion with 10 or fewer bleeding episodes in their worst year: 50 vs. 11%). However, the factor V Leiden mutation was not associated with the absence of arthropathy. The intron 22 inversion mutation of the factor VIII gene was tested for in a subgroup of 80 subjects, but it was not found to be a significant variable for any of the bleeding endpoints. The results of this small study are consistent with the hypothesis that the factor V Leiden mutation imparts a protective effect; however, a larger confirmatory study in which the factor VIII molecular defects can be controlled for is needed. Furthermore, most severe hemophiliacs who used fewer than 200 units/kg/year of factor concentrate or who had experienced 10 or fewer bleeding episodes per year did not carry the factor V Leiden mutation, suggesting that the proportion of severe hemophiliacs whose mild clinical course can be attributed to the factor V Leiden mutation is small.

scholarly journals An In Vitro Analysis of the Combination of Hemophilia A and Factor VLEIDEN

Blood ◽  
1997 ◽  
Vol 90 (8) ◽  
pp. 3067-3072 ◽  
Author(s):  
Cornelis van ‘t Veer ◽  
Neal J. Golden ◽  
Michael Kalafatis ◽  
Paolo Simioni ◽  
Rogier M. Bertina ◽  
...  
Keyword(s):  
Factor Viii ◽  
Tissue Factor ◽  
Thrombin Generation ◽  
Hemophilia A ◽  
Factor Viia ◽  
Factor V ◽  
Severe Hemophilia ◽  
Factor Viii Activity ◽  
Thrombin Formation

Abstract The classification of factor VIII deficiency, generally used based on plasma levels of factor VIII, consists of severe (<1% normal factor VIII activity), moderate (1% to 4% factor VIII activity), or mild (5% to 25% factor VIII activity). A recent communication described four individuals bearing identical factor VIII mutations. This resulted in a severe bleeding disorder in two patients who carried a normal factor V gene, whereas the two patients who did not display severe hemophilia were heterozygous for the factor VLEIDEN mutation, which leads to the substitution of Arg506 → Gln mutation in the factor V molecule. Based on the factor VIII level measured using factor VIII–deficient plasma, these two patients were classified as mild/moderate hemophiliacs. We studied the condition of moderate to severe hemophilia A combined with the factor VLEIDEN mutation in vitro in a reconstituted model of the tissue factor pathway to thrombin. In the model, thrombin generation was initiated by relipidated tissue factor and factor VIIa in the presence of the coagulation factors X, IX, II, V, and VIII and the inhibitors tissue factor pathway inhibitor, antithrombin-III, and protein C. At 5 pmol/L initiating factor VIIa⋅tissue factor, a 10-fold higher peak level of thrombin formation (350 nmol/L), was observed in the system in the presence of plasma levels of factor VIII compared with reactions without factor VIII. Significant increase in thrombin formation was observed at factor VIII concentrations less than 42 pmol/L (∼6% of the normal factor VIII plasma concentration). In reactions without factor VIII, in which thrombin generation was downregulated by the addition of protein C and thrombomodulin, an increase of thrombin formation was observed with the factor VLEIDEN mutation. The level of increase in thrombin generation in the hemophilia A situation was found to be dependent on the factor VLEIDEN concentration. When the factor VLEIDEN concentration was varied from 50% to 150% of the normal plasma concentration, the increase in thrombin generation ranged from threefold to sevenfold. The data suggested that the analysis of the factor V genotype should be accompanied by a quantitative analysis of the plasma factor VLEIDEN level to understand the effect of factor VLEIDEN in hemophilia A patients. The presented data support the hypothesis that the factor VLEIDEN mutation can increase thrombin formation in severe hemophilia A.

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