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Activation of factor X and its regulation by tissue factor pathway inhibitor in small-diameter capillaries lined with human endothelial cells (1992)

Lindhout, T ; Blezer, R ; Schoen, P ; [et al.]

American Society of Hematology

In: Blood. 1992; 79(11): 2909-2916. Published 1992 Jun 01. doi: 10.1182/blood.v79.11.2909.2909.

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Publication Date: 1992-06-01

Description: The activation of factor X at the surface of endothelial cells was investigated under controlled flow conditions. A method is described for preparing polyethylene capillaries whose inner walls are covered with a confluent layer of human umbilical vein endothelial cells. To obtain a stable and unperturbed layer of endothelial cells it was essential to pre-perfuse the endothelialized capillaries with medium for about 18 hours. At this stage no tissue factor activity could be detected, but when the seeded cells were perfused with medium containing tumor necrosis factor (TNF) a maximum steady-state rate of factor Xa production (16 fmol factor Xa/min/cm2) was observed within 8 hours. Further experiments were performed with endothelial cells incubated for 4 hours with TNF. Factor Xa was produced at a rate of 7 fmol factor Xa/min/cm2 on perfusion of the capillaries with factor X (100 nmol/L) and factor VII (0.1 U/mL) at a shear rate of 34 s-1. The extracellular matrix preparations of these cells produced factor Xa at a 20-fold higher rate (150 fmol factor Xa/min/cm2). In both cases factor Xa formation was dependent on the presence of factor VII and was completely inhibited when the perfusate also contained 5 nmol/L recombinant tissue factor pathway inhibitor (rTFPI). Pre-perfusion with factor Xa-TFPI complex in the absence of factor VIIa caused a much lesser inhibitory effect, suggesting that TFPI-mediated neutralization of endothelial cell and matrix tissue factor activity requires the presence of factor VIIa in addition to the presence of factor Xa.

Print ISSN: 0006-4971

Electronic ISSN: 1528-0020

Topics: Biology , Medicine

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Heparin-stimulated inhibition of factor IXa generation and factor IXa neutralization in plasma (1990)

Pieters, J ; Lindhout, T ; Willems, G

American Society of Hematology

In: Blood. 1990; 76(3): 549-554. Published 1990 Aug 01. doi: 10.1182/blood.v76.3.549.549.

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Publication Date: 1990-08-01

Description: Generation and inhibition of activated factor IXa was studied in factor XIa-activated plasma containing 4 mmol/L free calcium ions and 20 mumol/L phospholipid (25 mol% phosphatidylserine/75 mol% phosphatidylcholine). Interference of other (activated) clotting factors with the factor IXa activity measurements could be avoided by using a highly specific and sensitive bioassay. Factor IXa generation curves were analyzed according to a model that assumed Michaelis-Menten kinetics of factor XIa-catalyzed factor IXa formation and pseudo first order kinetics of inhibition of factor XIa and factor IXa. In the absence of heparin, factor IXa activity in plasma reached final levels that were found to increase with increasing amounts of factor XIa used to activate the plasma. When the model was fitted to this set of factor IXa generation curves, the analysis yielded a rate constant of inhibition of factor XIa of 0.7 +/- 0.1 min-1 and a kcat/Km ratio of 0.29 +/- 0.01 (nmol/L)-1 min-1. No neutralization of factor IXa activity was observed (the estimated rate constant of inhibition of factor IXa was 0). Thus, in the absence of heparin, the final level of factor IXa in plasma is only dependent on the initial factor XIa concentration. While neutralization of in situ generated factor IXa in normal plasma was negligible, unfractionated heparin dramatically enhanced the rate of inactivation of factor IXa (apparent second order rate constant of inhibition of 5.2 min-1/per microgram heparin/mL). The synthetic pentasaccharide heparin, the smallest heparin chain capable of binding antithrombin III, stimulated the inhibition of in situ generated factor IXa, but sevenfold less than unfractionated heparin (k = 0.76 min-1 per microgram pentasaccharide/mL). We found that free calcium ions were absolutely required to observe an unfractionated heparin and pentasaccharide-stimulated neutralization of factor IXa activity. Factor XIa inhibition (psuedo first order rate constant of 0.7 min-1) was not affected by unfractionated heparin or pentasaccharide in the range of heparin concentrations studied.

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Flow and the inhibition of prothrombinase by antithrombin III and heparin (1991)

Schoen, P ; Lindhout, T

American Society of Hematology

In: Blood. 1991; 78(1): 118-124. Published 1991 Jul 01. doi: 10.1182/blood.v78.1.118.bloodjournal781118.

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Publication Date: 1991-07-01

Description: Inhibition of prothrombinase by antithrombin III (ATIII) and heparin was investigated in a continuous-flow system. Phospholipid-coated capillaries, containing phospholipid-bound factor Xa and factor Va, were perfused with 1.0 mumol/L prothrombin and 0.5 nmol/L factor Va. At 25 degrees C and a flow rate of 32 microL/min (shear rate 28 seconds-1) the steady-state rates of prothrombin conversion depended linearly on the surface concentration of prothrombinase up to 2 fmol/cm2. The rate of thrombin generation was 952 +/- 43 (SE) mol/min/mol prothrombinase. When ATIII was included in the perfusate for 10 minutes, the free thrombin concentration at the outlet of the capillary was markedly reduced: a 50% neutralization was obtained at 0.7 mumol/L ATIII. However, the prothrombinase activity was not inhibited, as could be established after a subsequent perfusion with prothrombin and factor Va. At an ATIII concentration typical of normal plasma (2 mumol/L) a slight neutralization of prothrombinase was observed: 10% neutralization following a 10-minute perfusion. During a perfusion with ATIII in the absence of prothrombin, or in its presence with hirudin (2 mumol/L) also included in the perfusate, a more pronounced neutralization of prothrombinase was observed: 40% residual activity was obtained after a 10-minute perfusion. From this observation the suggestion comes forward that thrombin, continuously produced at the surface, consumes ATIII in the boundary layer. In this case the true ATIII concentration in the vicinity of surface-bound prothrombinase will be but a small fraction of the initial ATIII concentration in the bulk fluid. Unfractionated heparin and an ultra-low molecular weight heparin (pentasaccharide) did enhance the ATIII-dependent neutralization of prothrombinase, but to a much lesser extent than observed with small unilaminar phospholipid vesicles as the catalytic sites for prothrombinase assembly. The findings reported here support the notion that regulation of prothrombinase by heparin under in vivo conditions occurs at the stage of its formation, ie, through inhibition of free factor Xa and/or the generation of factor Va, rather than by direct inhibition of the prothrombinase activity.

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Heparin-stimulated inhibition of factor IXa generation and factor IXa neutralization in plasma (1990)

Pieters, J ; Lindhout, T ; Willems, G

American Society of Hematology

In: Blood. 1990; 76(3): 549-554. Published 1990 Aug 01. doi: 10.1182/blood.v76.3.549.bloodjournal763549.

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Publication Date: 1990-08-01

Description: Generation and inhibition of activated factor IXa was studied in factor XIa-activated plasma containing 4 mmol/L free calcium ions and 20 mumol/L phospholipid (25 mol% phosphatidylserine/75 mol% phosphatidylcholine). Interference of other (activated) clotting factors with the factor IXa activity measurements could be avoided by using a highly specific and sensitive bioassay. Factor IXa generation curves were analyzed according to a model that assumed Michaelis-Menten kinetics of factor XIa-catalyzed factor IXa formation and pseudo first order kinetics of inhibition of factor XIa and factor IXa. In the absence of heparin, factor IXa activity in plasma reached final levels that were found to increase with increasing amounts of factor XIa used to activate the plasma. When the model was fitted to this set of factor IXa generation curves, the analysis yielded a rate constant of inhibition of factor XIa of 0.7 +/- 0.1 min-1 and a kcat/Km ratio of 0.29 +/- 0.01 (nmol/L)-1 min-1. No neutralization of factor IXa activity was observed (the estimated rate constant of inhibition of factor IXa was 0). Thus, in the absence of heparin, the final level of factor IXa in plasma is only dependent on the initial factor XIa concentration. While neutralization of in situ generated factor IXa in normal plasma was negligible, unfractionated heparin dramatically enhanced the rate of inactivation of factor IXa (apparent second order rate constant of inhibition of 5.2 min-1/per microgram heparin/mL). The synthetic pentasaccharide heparin, the smallest heparin chain capable of binding antithrombin III, stimulated the inhibition of in situ generated factor IXa, but sevenfold less than unfractionated heparin (k = 0.76 min-1 per microgram pentasaccharide/mL). We found that free calcium ions were absolutely required to observe an unfractionated heparin and pentasaccharide-stimulated neutralization of factor IXa activity. Factor XIa inhibition (psuedo first order rate constant of 0.7 min-1) was not affected by unfractionated heparin or pentasaccharide in the range of heparin concentrations studied.

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5

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Flow and the inhibition of prothrombinase by antithrombin III and heparin (1991)

Schoen, P ; Lindhout, T

American Society of Hematology

In: Blood. 1991; 78(1): 118-124. Published 1991 Jul 01. doi: 10.1182/blood.v78.1.118.118.

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Publication Date: 1991-07-01

Description: Inhibition of prothrombinase by antithrombin III (ATIII) and heparin was investigated in a continuous-flow system. Phospholipid-coated capillaries, containing phospholipid-bound factor Xa and factor Va, were perfused with 1.0 mumol/L prothrombin and 0.5 nmol/L factor Va. At 25 degrees C and a flow rate of 32 microL/min (shear rate 28 seconds-1) the steady-state rates of prothrombin conversion depended linearly on the surface concentration of prothrombinase up to 2 fmol/cm2. The rate of thrombin generation was 952 +/- 43 (SE) mol/min/mol prothrombinase. When ATIII was included in the perfusate for 10 minutes, the free thrombin concentration at the outlet of the capillary was markedly reduced: a 50% neutralization was obtained at 0.7 mumol/L ATIII. However, the prothrombinase activity was not inhibited, as could be established after a subsequent perfusion with prothrombin and factor Va. At an ATIII concentration typical of normal plasma (2 mumol/L) a slight neutralization of prothrombinase was observed: 10% neutralization following a 10-minute perfusion. During a perfusion with ATIII in the absence of prothrombin, or in its presence with hirudin (2 mumol/L) also included in the perfusate, a more pronounced neutralization of prothrombinase was observed: 40% residual activity was obtained after a 10-minute perfusion. From this observation the suggestion comes forward that thrombin, continuously produced at the surface, consumes ATIII in the boundary layer. In this case the true ATIII concentration in the vicinity of surface-bound prothrombinase will be but a small fraction of the initial ATIII concentration in the bulk fluid. Unfractionated heparin and an ultra-low molecular weight heparin (pentasaccharide) did enhance the ATIII-dependent neutralization of prothrombinase, but to a much lesser extent than observed with small unilaminar phospholipid vesicles as the catalytic sites for prothrombinase assembly. The findings reported here support the notion that regulation of prothrombinase by heparin under in vivo conditions occurs at the stage of its formation, ie, through inhibition of free factor Xa and/or the generation of factor Va, rather than by direct inhibition of the prothrombinase activity.

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Activation of factor X and its regulation by tissue factor pathway inhibitor in small-diameter capillaries lined with human endothelial cells (1992)

Lindhout, T ; Blezer, R ; Schoen, P ; [et al.]

American Society of Hematology

In: Blood. 1992; 79(11): 2909-2916. Published 1992 Jun 01. doi: 10.1182/blood.v79.11.2909.bloodjournal79112909.

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Publication Date: 1992-06-01

Description: The activation of factor X at the surface of endothelial cells was investigated under controlled flow conditions. A method is described for preparing polyethylene capillaries whose inner walls are covered with a confluent layer of human umbilical vein endothelial cells. To obtain a stable and unperturbed layer of endothelial cells it was essential to pre-perfuse the endothelialized capillaries with medium for about 18 hours. At this stage no tissue factor activity could be detected, but when the seeded cells were perfused with medium containing tumor necrosis factor (TNF) a maximum steady-state rate of factor Xa production (16 fmol factor Xa/min/cm2) was observed within 8 hours. Further experiments were performed with endothelial cells incubated for 4 hours with TNF. Factor Xa was produced at a rate of 7 fmol factor Xa/min/cm2 on perfusion of the capillaries with factor X (100 nmol/L) and factor VII (0.1 U/mL) at a shear rate of 34 s-1. The extracellular matrix preparations of these cells produced factor Xa at a 20-fold higher rate (150 fmol factor Xa/min/cm2). In both cases factor Xa formation was dependent on the presence of factor VII and was completely inhibited when the perfusate also contained 5 nmol/L recombinant tissue factor pathway inhibitor (rTFPI). Pre-perfusion with factor Xa-TFPI complex in the absence of factor VIIa caused a much lesser inhibitory effect, suggesting that TFPI-mediated neutralization of endothelial cell and matrix tissue factor activity requires the presence of factor VIIa in addition to the presence of factor Xa.

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7

Electronic Resource

The rotating disc as a device to study the adhesive properties of endothelial cells under differential shear stresses (1994)

Reutelingsperger, C. P. M. ; Gool, R. G. J. ; Heijnen, V. ; [et al.]

Springer

Journal of materials science 5 (1994), S. 361-367

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ISSN: 1573-4838

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine , Technology

Notes: Hemocompatibility can be conferred on a biomaterial by covering this material with a monolayer of endothelial cells. The endothelial cell is an epithelial cell of mesenchymal origin, that features a specific phenotype with homotypic intercellular interactions and with specialized cell-matrix interactions. These interactions are mandatory to the normal barrier function and the non-thrombogenicity of the endothelial monolayer and are maintained in vivo at shear stresses ranging from 10-5 to 10-3 N cm-2. The endothelial monolayer grafted on a biomaterial should meet similar requirements. We have constructed a rotating disc device to investigate the effects of differential shear stresses on cell-cell and cell-matrix interactions in a monolayer of endothelial cells grafted on a disc-shaped biomaterial. The range of shear stresses that are being applied by the device vary from 0–10-4 N cm-2 to 0–2×10-3 N cm-2. In a series of experiments with discs of plasma discharge treated polycarbonate (PC) that are coated with fibronectin, it has been shown that a monolayer of endothelial cells grafted on these discs starts to lose intercellular contacts and cell-fibronectin interactions at shear stresses of 10-4 N cm-2. Coating of the PC discs with a complex extracellular matrix, synthesized by arterial smooth muscle cells in culture, prior to endothelial cell seeding results in the formation of a monolayer, which retains its integrity at shear stresses up to 2×10-3 N cm-2.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00058964

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Electronic Resource

Studies on two new radiopaque polymeric biomaterials (1994)

Kruft, M. A. B. ; Benzina, A. ; Bär, F. ; [et al.]

Hoboken, NJ : Wiley-Blackwell

Journal of Biomedical Materials Research 28 (1994), S. 1259-1266

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ISSN: 0021-9304

Keywords: Chemistry ; Polymer and Materials Science

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Medicine , Technology

Notes: Two new polymeric materials (polymers A and B) containing covalently bound iodine were prepared. These polymers were evaluated with respect to their possible use as radiopaque implant biomaterials - that is, materials that are visible in a noninvasive manner using routine X-ray absorption imaging techniques. Polymer A is a copolymer of methyl methacrylate (MMA) and 1 (80 and 20 mol%, respectively). Polymer B was prepared from MMA, 1, and 2-hydroxyethyl methacrylate (HEMA) (mol ratio 65:20:15, respectively). Compound 1 was synthesized from 4-io-dophenol and methacryloyl chloride. The resulting polymers were characterized with GPC, DSC, NMR, and by measuring both the advancing and receding contact angles. Thrombogenicity of the polymers was determined by an in vitro thrombin generation test procedure. The maximum concentration of free thrombin was 76 ± 1 nM for polymer A, and 64 ± 3 nM for polymer B. The lag times (i.e., time onset of thrombin generation) were 392 seconds for polymer A and 553 seconds for polymer B. For PVC-T, which is known as a passive material, a lag time of 583 seconds was found. This indicates that polymer B is comparable to PVCT, and more passive than polymer A. Polymer A exhibited minor activation of platelets. Polymer B did not induce platelet activation at all. The polymers exhibited, even as fibers with a diameter of ca. 0.3 mm, good radiopacity with routine imaging X-ray techniques in the clinic. It is argued that polymers A and B - which actually represent a whole family of radiopaque polymeric biomaterials - exhibit promising properties with respect to applications as construction materials for a new generation of endovascular stents. © 1994 John Wiley & Sons, Inc.

Additional Material: 6 Ill.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1002/jbm.820281103

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