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  • 1
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    The αC domains of fibrinogen affect the structure of the fibrin clot, its physical properties, and its susceptibility to fibrinolysis
    American Society of Hematology ; 2005
    In:  Blood Vol. 106, No. 12 ( 2005-12-01), p. 3824-3830
    Details
    In: Blood, American Society of Hematology, Vol. 106, No. 12 ( 2005-12-01), p. 3824-3830
    Abstract: The functions of the αC domains of fibrinogen in clotting and fibrinolysis, which have long been enigmatic, were determined using recombinant fibrinogen truncated at Aα chain residue 251. Scanning electron microscopy and confocal microscopy revealed that the fibers of α251 clots were thinner and denser, with more branch points than fibers of control clots. Consistent with these results, the permeability of α251 clots was nearly half that of control clots. Together, these results suggest that in normal clot formation, the αC domains enhance lateral aggregation to produce thicker fibers. The viscoelastic properties of α251 fibrin clots differed markedly from control clots; α251 clots were much less stiff and showed more plastic deformation, indicating that interactions between the αC domains in normal clots play a major role in determining the clot's mechanical properties. Comparing factor XIIIa cross-linked α251 and control clots showed that γ chain cross-linking had a significant effect on clot stiffness. Plasmin-catalyzed lysis of α251 clots, monitored with both macroscopic and microscopic methods, was faster than lysis of control clots. In conclusion, these studies provide the first definitive evidence that the αC domains play an important role in determining the structure and biophysical properties of clots and their susceptibility to fibrinolysis.
    Type of Medium: Online Resource
    ISSN: 0006-4971 , 1528-0020
    URL: Article
    DOI: 10.1182/blood-2005-05-2150
    RVK:
    XA 33000
    RVK:
    XA 10000
    Language: English
    Publisher: American Society of Hematology
    Publication Date: 2005
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  • 2
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    Impaired ristocetin–induced Platelet Aggregation in Whole Blood Assessed with a Multiplate© Analyser Suggests a New Mechanism of Antiplatelet Effect of Aspirin and Clopidogrel,
    American Society of Hematology ; 2011
    In:  Blood Vol. 118, No. 21 ( 2011-11-18), p. 3362-3362
    Details
    In: Blood, American Society of Hematology, Vol. 118, No. 21 ( 2011-11-18), p. 3362-3362
    Abstract: Abstract 3362 The five channel computerized Whole Blood Aggregation instrument (Multiple Platelet Function Analyzer or Multiplate®), assesses platelet aggregation based on a modified whole blood impedance aggregation method. It permits platelet aggregation to be measured after adding commonly used agonists as arachidonic acid (ASPItest), ADP (ADPtest), collagen (COLtest), ristocetin (RISTOtest) and TRAP (TRAPtest), by detecting changes in electrical resistance in whole blood. Instrument handling is easy. Results are available within 9 minutes. Our objective was to evaluate the effect of aspirin (irreversible inhibitor of COX-1) and/or clopidogrel (irreversible inhibitor of the platelet P2Y12 receptor) on whole blood platelet aggregations induced by the 5 agonists using the Multiplate® in patients treated by aspirin and/or clopidogrel. Patients and controls. Two hundred and twenty two consecutive patients were recruited: 83 treated daily by 75 or 100 mg aspirin (group A); 42 treated daily by 75 mg clopidogrel (group C); 70 treated daily by 75 or 100 mg aspirin plus 75mg clopidogrel (group AC) and 27 who were daily on 100 mg aspirin before coronary intervention were tested 12 h after dual loading dose of aspirin between 75 et 500 mg and 75 to 900 mg clopidogrel according to cardiologists' recommendations: group loading aspirin-clopidogrel (LAC). Among group AC, 23 consecutive patients requiring intracranial stent placement of supra-aortic vessel were tested first at preoperative, without antiplatelet therapy, then 1 month after initiation of daily continuous dual antiplatelet therapy by 100 mg aspirin + 75mg clopidogrel. Ninety six volunteers without pathology or drugs influencing platelet functions constitute the normal control group (N). Blood samples. All patient and controls gave informed consent prior to blood sampling. Blood samples were collected by venipuncture or obtained from the arterial sheath directly into vacutainer Becton Dickinson tube containing 0.129M sodium citrate. Results. Patients under medication showing lower aggregation values than the arbitrary cutoff (fifth percentile of the aggregation in the normal control group was selected for each agonist) were classified as abnormal and having biological sensitivity to the agonist tested. Aggregation values above the cutoff with ASPItest or ADPtest for patients on antiplatelet agents were considered as a persistent platelet aggregation and as a biological resistance. According to the literature, resistance to aspirin was found in 8.6% of patients under aspirin alone or in combination and in 25.1% of patients under clopidogrel alone or in combination. Our main result shows an inhibition in platelet aggregation using ristocetin as agonist for 73.9% of patients taking aspirin alone, for 27.8% on clopidogrel and in 94% of patients receiving combination of the 2 drugs. This inhibition appears after aspirin + clopidogrel intake as we could observe it among patients candidates for intracranial stent placement tested before and after one month of treatment by dual antiplatelet therapy. This effect is not related to von Willebrand Factor (vWF) deficiency since the measurement of ristocetin cofactor activity, and vWF antigen carried out among 14 patients exhibiting an inhibition in whole blood platelet aggregation using RISTOtest were normal and unchanged before and after antiplatelet treatment. VWF is essential platelet-to-platelet interactions which is promoted by the binding of VWF with platelet-receptor glycoprotein IbIX (GPIbIX). Our results suggest: 1) aspirin inhibits the interaction of vWF to GP IbIX. This inhibition appears increased by the association of clopidogrel to aspirin. 2) a new mechanism of inhibition of the platelet function GPIbIX-vWF dependant conjointly to inhibition of cyclooxygenase by aspirin and P2Y12 receptor by clopidogrel.Table I:Biological sensibility according to the five tests (%) in the 4 groups testedGroup (n)ASPItestADPtestCOLtestRISTOtestTRAPtestA (83)84.312.038.373.98.4C (42)38.176.219.227.816.7AC (70)90.074.348.288.222.9LAC (27)100.074.163.0100.029.6 Disclosures: No relevant conflicts of interest to declare.
    Type of Medium: Online Resource
    ISSN: 0006-4971 , 1528-0020
    URL: Article
    DOI: 10.1182/blood.V118.21.3362.3362
    RVK:
    XA 33000
    RVK:
    XA 10000
    Language: English
    Publisher: American Society of Hematology
    Publication Date: 2011
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  • 3
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    Platelet Protease Nexin-1, a Serpin That Strongly Influences Fibrinolysis and Thrombolysis
    American Society of Hematology ; 2010
    In:  Blood Vol. 116, No. 21 ( 2010-11-19), p. 818-818
    Details
    In: Blood, American Society of Hematology, Vol. 116, No. 21 ( 2010-11-19), p. 818-818
    Abstract: Abstract 818 Fibrinolysis, a physiological process leading to clot resorbtion, is strictly controlled by fibrin-localized plasminogen activators (tPA and uPA) and by inhibitors like plasminogen activator type-1 (PAI-1). The serpin PAI-1 is a plasmatic serine protease inhibitor, that is also stored in platelets α-granules. PAI-1 inhibits both the action of urokinase- and tissue-type plasminogen activators (uPA and tPA respectively), and is up to now considered as the principal inhibitor of fibrinolysis in vivo. Interestingly, platelets are also known to inhibit fibrinolysis by both PAI-1-dependent and PAI-1-independent mechanisms. The individual role of other serpins, specifically protease nexin-1 (PN-1) in the thrombolytic process has not been investigated so far. Indeed, we recently demonstrated that a significant amount of PN-1 is stored within the α-granules of platelets and plays an antithrombotic function in vivo. PN-1, also known as SERPINE2, deserves a special interest since it also significantly inhibits in vitro uPA, tPA and plasmin. In this study, we explored the effect of PN-1 on fibrinolysis in vitro and in vivo. We evidenced the antifibrinolytic activity of platelet PN-1 in vitro using a specific PN-1-blocking antibody and PN-1 deficient platelets and, in vivo in PN-1−/− mice. Our data directly indicate that platelet PN-1 inhibits both tPA and plasmin activities in fibrin zymography. Remarkably, whereas fibrin-bound tPA or plasmin activity is not affected by PAI-1, we showed that PN-1 inhibits both plasmin generation induced by tPA-bound to fibrin and fibrin-bound plasmin. Moreover, PN-1 blockade or PN-1 deficiency result in an increased lysis of fibrin clots generated from platelet-rich plasma indicating that PN-1 regulates endogenous tPA-mediated lysis. Rotational thromboelastometry (ROTEM®) analysis shows that platelet PN-1 significantly decreases the rate of fibrinolysis ex vivo. Futhermore, blockade or deficiency of PN-1 provides direct evidence for an acceleration of the lysis-front velocity in platelet-rich clots. To challenge the role of PN-1 on fibrinolysis in vivo, we have developed an original murine model of thrombolysis. Using a dorsal skinfold chamber, thrombus formation induced by ferric chloride injury of venules and subsequent thrombolysis were visualized by microscopy on alive animals. This new approach allows a reproducible quantification of thrombus formation and of tPA- induced thrombus lysis. We observed that thrombi are more readily lysed in PN-1-deficient mice than in wild-type mice. Moreover, in PN-1 deficient mice, the rate and the extent of reperfusion were both increased (Figure A and B). These data demonstrate that platelet PN-1 is a new negative regulator of thrombolysis activity of plasmin, both in solution and within the clot. For the first time, this study shows that PN-1 protects towards thrombolysis and therefore could give rise to new approaches for therapeutic application. Indeed, PN-1 might be a promising target for optimizing thrombolytic therapy by tPA. Figure : Effect of PN-1 on thrombolysis. (A) Representative intravital images of vessels reperfusion after tPA treatment in dorsal skinfold chamber. (B) Quantification of the incidence of reperfused vessels within 1 hour post tPA treatment Figure :. Effect of PN-1 on thrombolysis. (A) Representative intravital images of vessels reperfusion after tPA treatment in dorsal skinfold chamber. (B) Quantification of the incidence of reperfused vessels within 1 hour post tPA treatment Disclosures: No relevant conflicts of interest to declare.
    Type of Medium: Online Resource
    ISSN: 0006-4971 , 1528-0020
    URL: Article
    DOI: 10.1182/blood.V116.21.818.818
    RVK:
    XA 33000
    RVK:
    XA 10000
    Language: English
    Publisher: American Society of Hematology
    Publication Date: 2010
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  • 4
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    Evaluation of Residual Platelet Reactivity in Patients Treated with Aspirin and or Clopidogrel: Comparison of Results Obtained On Multiplate®, PFA-100TM and Classical Light Transmission Aggregometry.
    American Society of Hematology ; 2009
    In:  Blood Vol. 114, No. 22 ( 2009-11-20), p. 3129-3129
    Details
    In: Blood, American Society of Hematology, Vol. 114, No. 22 ( 2009-11-20), p. 3129-3129
    Abstract: Abstract 3129 Poster Board III-66 Residual platelet reactivity (RPR), despite antiplatelet therapy (AT), is currently associated with an increased risk of recurrent ischemic events and is linked to a biological resistance to AT. We determined whether whole blood impedance aggregometry using the Multiplate® (Dynabyte and IL France) detects the effects of AT as reliably as does classical light transmission aggregometry (LTA) (PAP-8, Biodis). We compared also results with those obtained on PFA-100TM (Siemens). Patients and Methods Ninety-three controls, healthy volunteers or patients without intake of AT or other drugs or pathology impairing platelet functions and 182 consecutive patients on AT were studied. Among patients, 61 received Aspirin 100mg (group A), 36 Clopidogrel 75mg (group C) and 85 the association of the two drugs. Among these 85 patients, 58 received continuously Aspirin 75mg and Clopidogrel 75mg (group AC) and 27 received a loading dose for both drugs before coronarography (group LAC). Venous blood samples were obtained on Becton Dickinson vacutainer containing citrate 0.129M. Multiplate® measures change in electrical resistance as arbitrary aggregation units (AU) over time. Aggregation is quantified as AU and area under the curve (AUC) of AU.min. On LTA, aggregation was quantified according to manufacturer's recommendations as AUC. “Resistance” to Aspirin or Aspirin RPR was determined on Multiplate® (M) using arachidonic acid at 0.5 mM (ASPITEST), in LTA with arachidonic acid at 1 mM (AA-LTA) and on PFA-100TM using the cartridge with membrane coated with epinephrine (PFA-EPI). In the same way, “resistance” to Clopidogrel was determined on M using ADP at 6.4 μM (ADPTEST), in LTA with the presence of ADP at 10 μM (ADP-LTA) and occlusion time on PFA-100TM using cartridge with membrane coated with ADP (PFA-ADP). Results All patients were tested on M, 169 on PFA-100TM and 37 with LTA. Significant correlations (p 〈 .0001) were observed between ASPITEST and AA-LTA (r = .771), ASPITEST and PFA-EPI (r = -.42), AA-LTA and PFA-EPI (r = -.47), ADPTEST and ADP-LTA (r = .6) ADPTEST and PFA-ADP (r = -.39) and ADP-LTA and PFA-ADP (r = -.56). To define RPR on M and LTA, cut-off values (5th percentile) were determined from controls for each inducer. Treated patients presenting reactivity higher than the threshold value were considered as ‘resistant’. For PFA-100TM, results of patients under cut-off point defined by the manufacturer were considered as ‘resistant’. The frequency of “resistant” patients according to the different platelet functions tests was: a) for Aspirin: 10% on M, 4.5% with LTA and 32.8% with PFA-EPI. b) for Clopidogrel 23.1% on M 16.1% with LTA and 54.5% with PFA-ADP. A good agreement was found between ASPITEST and AA-LTA and between ADPTEST and ADP-LTA (respectively 92% and 88.7%). On the other hand, results on comparison between ASPITEST and PFA-EPI and LTA and PFA-EPI were respectively 70% and 72.6%. Results for ADPTEST and PFA-ADP were 69% and 72.3% for ADP-LTA and PFA-ADP. A significant gradation of mean AUC was observed using ASPITEST on M between all groups of subjects: controls (mean = 494±176); group A (mean = 214±186); group C (mean = 310±198); group AC (mean = 118±109); group LAC (mean = 74±45). Similar results are obtained with LTA and on PFA-100TM (except for the group C, Clopidogrel alone). Thus, a potentiating effect of Aspirin by the association with Clopidogrel may be postulated in this study. Using ADPTEST to assess the treatment response by clopidogrel, mean AUC were significantly lower for all group of patients with Clopidogrel than for controls. No gradient has been observed. Mean AUC of patients with Aspirin alone was similar to controls. In conclusion, our results confirm that Multiplate® is more effective than PFA-100TM in monitoring patients on AT. The good agreement between Multiplate® and LTA could lead to use the Multiplate® in first intention to detect RPR in these patients. Furthermore the easiness of Multiplate® use may contribute to development of new studies on biological activities of AT. Disclosures No relevant conflicts of interest to declare.
    Type of Medium: Online Resource
    ISSN: 0006-4971 , 1528-0020
    URL: Article
    DOI: 10.1182/blood.V114.22.3129.3129
    RVK:
    XA 33000
    RVK:
    XA 10000
    Language: English
    Publisher: American Society of Hematology
    Publication Date: 2009
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  • 5
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    Serotonin 5-HT2B receptors are required for bone-marrow contribution to pulmonary arterial hypertension
    American Society of Hematology ; 2012
    In:  Blood Vol. 119, No. 7 ( 2012-02-16), p. 1772-1780
    Details
    In: Blood, American Society of Hematology, Vol. 119, No. 7 ( 2012-02-16), p. 1772-1780
    Abstract: Pulmonary arterial hypertension (PAH) is a progressive disease characterized by lung endothelial dysfunction and vascular remodeling. Recently, bone marrow progenitor cells have been localized to PAH lungs, raising the question of their role in disease progression. Independently, serotonin (5-HT) and its receptors have been identified as contributors to the PAH pathogenesis. We hypothesized that 1 of these receptors, 5-HT2B, is involved in bone marrow stem cell mobilization that participates in the development of PAH and pulmonary vascular remodeling. A first study revealed expression of 5-HT2B receptors by circulating c-kit+ precursor cells, whereas mice lacking 5-HT2B receptors showed alterations in platelets and monocyte-macrophage numbers, and in myeloid lineages of bone marrow. Strikingly, mice with restricted expression of 5-HT2B receptors in bone marrow cells developed hypoxia or monocrotaline-induced increase in pulmonary pressure and vascular remodeling, whereas restricted elimination of 5-HT2B receptors on bone marrow cells confers a complete resistance. Moreover, ex vivo culture of human CD34+ or mice c-kit+ progenitor cells in the presence of a 5-HT2B receptor antagonist resulted in altered myeloid differentiation potential. Thus, we demonstrate that activation of 5-HT2B receptors on bone marrow lineage progenitors is critical for the development of PAH.
    Type of Medium: Online Resource
    ISSN: 0006-4971 , 1528-0020
    URL: Article
    DOI: 10.1182/blood-2011-06-358374
    RVK:
    XA 33000
    RVK:
    XA 10000
    Language: English
    Publisher: American Society of Hematology
    Publication Date: 2012
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