Synthesis of Tissue Factor Pathway Inhibitor in Human Synovial Cells and Chondrocytes Makes Joints the Predilected Site of Bleeding in Haemophiliacs

Brinkmann, Thomas; Kähnert, Heike; Prohaska, W.; Nordfang, Ole; Kleesiek, Knut

doi:10.1515/cclm.1994.32.4.313

Cited by 23 publications

(21 citation statements)

References 18 publications

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“…The increased factor pathway inhibitor is mainly synthesized by vascu-tissue factor pathway inhibitor activity suggested that lar endothelium, where it is bound to heparan sulphate this inhibitor is involved in the post-heparin anticoaguor glycosaminoglycans (6,7), and by other cells, e. g. lant effect following heparin administration. A heparin megakaryocytes and chondrocytes (8). There are three binding site C-terminal from domain 53 has been posintravascular pools of tissue factor pathway inhibitor, in tulated as a mediator of heparin-induced tissue factor pathway inhibitor release from the cell surface (15).…”

Section: Introductionmentioning

confidence: 99%

Detection of the Three Kunitz-Type Single Domains of Membrane-Bound Tissue Factor Pathway Inhibitor (TFPI) by Flow Cytometry

Tiemann¹,

Brinkmann²,

Kleesiek³

1997

CCLM

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Summary:Tissue factor pathway inhibitor, a natural anticoagulant in the extrinsic pathway of blood coagulation, is associated with the endothelial membrane and presumed to be released by heparin.For flow cytometric detection of membrane-bound tissue factor pathway inhibitor we synthesized polyclonal monospecific antibodies directed against each of the three Kunitz-type domains. Antisera were obtained by immunisation of rabbits with synthetic oligopeptides representing the reactive site of each domain. Different cell lines (chondrosarcoma, synovial sarcoma, synovial cells, leukaemic monocytes) and endothelial cells were investigated by flow cytometric analysis using these antibodies. The three tissue factor pathway inhibitor domains were detected on the surface of all cells by the corresponding antisera. Similar results were obtained by immuno-histochemical staining. Since domain 53 was recognised by the appropriate antibody, it would seem that this third domain is not the membrane binding site. To investigate the cellular tissue factor pathway inhibitor release, endothelial cells were cultivated with heparin. Protein resynthesis and translocation were inhibited by puromycin and monensin, respectively. After heparin incubation an increased tissue factor pathway inhibitor concentration was determined in the cell culture medium by a chromogenic substrate assay. However, the tissue factor pathway inhibitor density on the cell surface was not influenced by heparin, as shown by flow cytometry using the three tissue factor pathway inhibitor antisera. Our results suggest that functionally active tissue factor pathway inhibitor is not released from the cell surface. Therefore, the effect of heparin appears to be mediated by secretion of tissue factor pathway inhibitor from intracellular stores. Introductionplasma, in platelets and on the endothelial cell surface.

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Section: Introductionmentioning

confidence: 99%

Detection of the Three Kunitz-Type Single Domains of Membrane-Bound Tissue Factor Pathway Inhibitor (TFPI) by Flow Cytometry

Tiemann¹,

Brinkmann²,

Kleesiek³

1997

CCLM

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“…Among other cell types tissue factor pathway inhibitor has been shown to be expressed by endothelial cells (17,18), megakaryocytes, chondrocytes and synovial cells (19,20). The extrinsic pathway is initiated by the tissue factor/factor VII complex, which is inhibited by tissue factor pathway inhibitor.…”

Section: Discussionmentioning

confidence: 99%

Effect of Cyclosporine A on the Release of Tissue Factor Pathway Inhibitor from Endothelial Cells in Heart Transplant Patients and Cell Culture

Tiemann

Prohaska²,

Körfer³

et al. 1997

Clinical Chemistry and Laboratory Medicine

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Summary: We investigated the influence of cyclosporine A on the concentration of tissue factor pathway inhibitor and von Willebrand factor antigen in plasma of heart transplant outpatients.Tissue factor pathway inhibitor was quantified in plasma of blood donors (n = 50) and heart transplant outpatients (n = 50) by a chromogenic substrate assay with a mean of 32.4 μg/l and 98.2 μ^, respectively. Von Willebrand factor antigen was determined with an enzyme-linked immunoassay with a mean of 90.9% for blood donors and 184.5% in plasma of heart transplant recipients.In addition, we investigated the effect of cyclosporine A on endothelial cell cultures over an incubation period of four days. A dose-dependent effect of cyclosporine A on the release of endothelial tissue factor pathway inhibitor and von Willebrand factor antigen was determined in a concentration range from 100 to 200 μg/l cyclosporine A. The tissue factor pathway inhibitor and von Willebrand factor antigen concentrations in the cell culture supernatant increased during the incubation time according to the cyclosporine A concentration 2-3 fold and 2 fold, respectively.For a further elucidation of the cyclosporine A effect we investigated the influence of cremophor EL, the vehicle of cyclosporine A. Cremophor EL alone did not increase the tissue factor pathway inhibitor release. However, the release was enhanced 2-4 fold after co-stimulation with the calcium ionophore A 23187 (10~4mol/l) in a concentration-dependent mode.We conclude that a generalized endothelial damage or activation is most probably caused by cyclosporine A and its vehicle cremophor EL. This process probably depends upon the increase of cytosolic free calcium, as described for the liberation of von Willebrand factor by endothelial cells.

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“…2.5 % are found in thrombocytes, which can be released through thrombin stimulation [25]. It is known that megakaryocytes [26], monocytes [27,28], HepG2 cells [29,30,31], and chondrocytes [32] also produce TFPI. The synthesis of TFPI in human synovial cells and human chondrocytes seems to be part of an important regulation process in the synovial system, which maintains a balance between fibrinolytic and clotting reactions during minimal bleeding and avoids inadequate fibrin deposition on the cartilage surface of the joint.…”

Section: Sources Of Tfpimentioning

confidence: 99%

“…In haemophiliacs, factor Xa generation depends exclusively on the factor Vila/tissue factor pathway, since factor VIII or factor IX are deficient. Therefore, the presence of TFPI in the synovial system would seem to be the reason why joints are.the predilected sites of bleeding in patients with haemophilia [32].…”

Section: Sources Of Tfpimentioning

confidence: 99%

Tissue Factor Pathway Inhibitor (TFPI): Biochemistry, Genetics, and Implications for Thrombophilia. Tissue Factor Pathway Inhibitor (TFPI): Biochemie, Genetik und Stellenwert für die Thromboseneigung

Brinkmann¹,

Schmidt²,

Prohaska³

et al. 2001

LaboratoriumsMedizin

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Synthesis of Tissue Factor Pathway Inhibitor in Human Synovial Cells and Chondrocytes Makes Joints the Predilected Site of Bleeding in Haemophiliacs

Cited by 23 publications

References 18 publications

Detection of the Three Kunitz-Type Single Domains of Membrane-Bound Tissue Factor Pathway Inhibitor (TFPI) by Flow Cytometry

Detection of the Three Kunitz-Type Single Domains of Membrane-Bound Tissue Factor Pathway Inhibitor (TFPI) by Flow Cytometry

Effect of Cyclosporine A on the Release of Tissue Factor Pathway Inhibitor from Endothelial Cells in Heart Transplant Patients and Cell Culture

Tissue Factor Pathway Inhibitor (TFPI): Biochemistry, Genetics, and Implications for Thrombophilia. Tissue Factor Pathway Inhibitor (TFPI): Biochemie, Genetik und Stellenwert für die Thromboseneigung

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