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DOI: 10.1055/a-1723-4075
Knockdown and Knockout of Tissue Factor Pathway Inhibitor in Zebrafish
Funding The work was supported by the funds from National Institutes of Health grants DK117384 and HL159399.
Abstract
Tissue factor pathway inhibitor (TFPI) is an anticoagulant that inhibits factor VIIa and Xa in the blood coagulation pathways. TFPI contains three Kunitz domains, K1, K2, and K3. K1 and K2 inhibit factor VIIa and Xa, respectively. However, the regulation of TFPI is poorly studied. Since zebrafish has become an alternate model to discover novel actors in hemostasis, we hypothesized that TFPI regulation could be studied using this model. As a first step, we confirmed the presence of tfpia in zebrafish using reverse transcription polymerase chain reaction. We then performed piggyback knockdowns of tfpia and found increased coagulation activity in tfpia knockdown. We then created a deletion mutation in tfpia locus using the CRISPR/Cas9 method. The tfpia homozygous deletion mutants showed increased coagulation activities similar to that found in tfpia knockdown. Taken together, our data suggest that tfpia is a negative regulator for zebrafish coagulation, and silencing it leads to thrombotic phenotype. Also, the zebrafish tfpia knockout model could be used for reversing this thrombotic phenotype to identify antithrombotic novel factors by the genome-wide piggyback knockdown method.
Author Contributions
R.R. maintained zebrafish, performed knockdown, conducted whole-mount immunohistochemistry experiments, generated knockout mutants, characterized the mutants, participated in the discussion, and wrote the paper. W.F. collected plasma for mass spectrometry and performed Xa inhibition assays. A.A.Q. performed microinjections in larvae for laser-induced thrombosis. M.R. performed genotyping of the mutants. P.J. designed the research, analyzed the data, and edited the paper.
Publikationsverlauf
Eingereicht: 01. März 2021
Angenommen: 25. November 2021
Accepted Manuscript online:
16. Dezember 2021
Artikel online veröffentlicht:
04. März 2022
© 2022. Thieme. All rights reserved.
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References
- 1 Girard TJ, Warren LA, Novotny WF. et al. Functional significance of the Kunitz-type inhibitory domains of lipoprotein-associated coagulation inhibitor. Nature 1989; 338 (6215): 518-520
- 2 Novotny WF, Girard TJ, Miletich JP, Broze Jr GJ. Purification and characterization of the lipoprotein-associated coagulation inhibitor from human plasma. J Biol Chem 1989; 264 (31) 18832-18837
- 3 Wun TC, Kretzmer KK, Girard TJ, Miletich JP, Broze Jr GJ. Cloning and characterization of a cDNA coding for the lipoprotein-associated coagulation inhibitor shows that it consists of three tandem Kunitz-type inhibitory domains. J Biol Chem 1988; 263 (13) 6001-6004
- 4 Sandset PM. Tissue factor pathway inhibitor (TFPI)–an update. Haemostasis 1996; 26 (Suppl. 04) 154-165
- 5 Lindahl AK, Sandset PM, Abildgaard U. The present status of tissue factor pathway inhibitor. Blood Coagul Fibrinolysis 1992; 3 (04) 439-449
- 6 Novotny WF, Girard TJ, Miletich JP, Broze Jr GJ. Platelets secrete a coagulation inhibitor functionally and antigenically similar to the lipoprotein associated coagulation inhibitor. Blood 1988; 72 (06) 2020-2025
- 7 Maroney SA, Haberichter SL, Friese P. et al. Active tissue factor pathway inhibitor is expressed on the surface of coated platelets. Blood 2007; 109 (05) 1931-1937
- 8 Maroney SA, Cooley BC, Ferrel JP. et al. Absence of hematopoietic tissue factor pathway inhibitor mitigates bleeding in mice with hemophilia. Proc Natl Acad Sci U S A 2012; 109 (10) 3927-3931
- 9 Hackeng TM, Seré KM, Tans G, Rosing J. Protein S stimulates inhibition of the tissue factor pathway by tissue factor pathway inhibitor. Proc Natl Acad Sci U S A 2006; 103 (09) 3106-3111
- 10 Hamik A, Setiadi H, Bu G, McEver RP, Morrissey JH. Down-regulation of monocyte tissue factor mediated by tissue factor pathway inhibitor and the low density lipoprotein receptor-related protein. J Biol Chem 1999; 274 (08) 4962-4969
- 11 Han X, Girard TJ, Baum P, Abendschein DR, Broze Jr GJ. Structural requirements for TFPI-mediated inhibition of neointimal thickening after balloon injury in the rat. Arterioscler Thromb Vasc Biol 1999; 19 (10) 2563-2567
- 12 Wood JP, Bunce MW, Maroney SA, Tracy PB, Camire RM, Mast AE. Tissue factor pathway inhibitor-alpha inhibits prothrombinase during the initiation of blood coagulation. Proc Natl Acad Sci U S A 2013; 110 (44) 17838-17843
- 13 Eitzman DT, Westrick RJ, Bi X. et al. Lethal perinatal thrombosis in mice resulting from the interaction of tissue factor pathway inhibitor deficiency and factor V Leiden. Circulation 2002; 105 (18) 2139-2142
- 14 Van Dreden P, Grosley M, Cost H. Total and free levels of tissue factor pathway inhibitor: a risk factor in patients with factor V Leiden?. Blood Coagul Fibrinolysis 1999; 10 (02) 115-116
- 15 van 't Veer C, Kalafatis M, Bertina RM, Simioni P, Mann KG. Increased tissue factor-initiated prothrombin activation as a result of the Arg506 –> Gln mutation in factor VLEIDEN. J Biol Chem 1997; 272 (33) 20721-20729
- 16 Wood JP, Petersen HH, Yu B, Wu X, Hilden I, Mast AE. TFPIα interacts with FVa and FXa to inhibit prothrombinase during the initiation of coagulation. Blood Adv 2017; 1 (27) 2692-2702
- 17 van Doorn P, Rosing J, Campello E. et al. Development of a plasma-based assay to measure the susceptibility of factor V to inhibition by the C-terminus of TFPIα. Thromb Haemost 2020; 120 (01) 55-64
- 18 Lockett JM, Mast AE. Contribution of regions distal to glycine-160 to the anticoagulant activity of tissue factor pathway inhibitor. Biochemistry 2002; 41 (15) 4989-4997
- 19 Wang G, Xie B, Su Y. et al. Expression analysis of tissue factor pathway inhibitors TFPI-1 and TFPI-2 in Paralichthys olivaceus and antibacterial and anticancer activity of derived peptides. Vet Res (Faisalabad) 2021; 52 (01) 32
- 20 Raman R, Ryon M, Jagadeeswaran P. RNaseH-mediated simultaneous piggyback knockdown of multiple genes in adult zebrafish. Sci Rep 2020; 10 (01) 20187
- 21 Kim S, Radhakrishnan UP, Rajpurohit SK, Kulkarni V, Jagadeeswaran P. Vivo-Morpholino knockdown of alphaIIb: a novel approach to inhibit thrombocyte function in adult zebrafish. Blood Cells Mol Dis 2010; 44 (03) 169-174
- 22 Varshney GK, Carrington B, Pei W. et al. A high-throughput functional genomics workflow based on CRISPR/Cas9-mediated targeted mutagenesis in zebrafish. Nat Protoc 2016; 11 (12) 2357-2375
- 23 Iyer N, Tcheuyap VT, Schneider S, Marshall V, Jagadeeswaran P. Knockout of von Willebrand factor in Zebrafish by CRISPR/Cas9 mutagenesis. Br J Haematol 2019; 186 (04) e76-e80
- 24 Jagadeeswaran P, Sheehan JP. Analysis of blood coagulation in the zebrafish. Blood Cells Mol Dis 1999; 25 (3–4): 239-249
- 25 Iyer N, Jagadeeswaran P. Microkinetic coagulation assays for human and zebrafish plasma. Blood Coagul Fibrinolysis 2021; 32 (01) 50-56
- 26 Jagadeeswaran P, Paris R, Rao P. Laser-induced thrombosis in zebrafish larvae: a novel genetic screening method for thrombosis. Methods Mol Med 2006; 129: 187-195
- 27 Jagadeeswaran P, Carrillo M, Radhakrishnan UP, Rajpurohit SK, Kim S. Laser-induced thrombosis in zebrafish. Methods Cell Biol 2011; 101: 197-203
- 28 Carrillo M, Kim S, Rajpurohit SK, Kulkarni V, Jagadeeswaran P. Zebrafish von Willebrand factor. Blood Cells Mol Dis 2010; 45 (04) 326-333
- 29 Jagadeeswaran P, Liu YC, Sheehan JP. Analysis of hemostasis in the zebrafish. Methods Cell Biol 1999; 59: 337-357
- 30 Erhardtsen E, Ezban M, Madsen MT. et al. Blocking of tissue factor pathway inhibitor (TFPI) shortens the bleeding time in rabbits with antibody induced haemophilia A. Blood Coagul Fibrinolysis 1995; 6 (05) 388-394
- 31 Hilden I, Lauritzen B, Sørensen BB. et al. Hemostatic effect of a monoclonal antibody mAb 2021 blocking the interaction between FXa and TFPI in a rabbit hemophilia model. Blood 2012; 119 (24) 5871-5878
- 32 Chowdary P. Anti-tissue factor pathway inhibitor (TFPI) therapy: a novel approach to the treatment of haemophilia. Int J Hematol 2020; 111 (01) 42-50
- 33 Cardinal M, Kantaridis C, Zhu T. et al. A first-in-human study of the safety, tolerability, pharmacokinetics and pharmacodynamics of PF-06741086, an anti-tissue factor pathway inhibitor mAb, in healthy volunteers. J Thromb Haemost 2018; 16 (09) 1722-1731
- 34 Gu JM, Zhao XY, Schwarz T. et al. Mechanistic modeling of the pharmacodynamic and pharmacokinetic relationship of tissue factor pathway inhibitor-neutralizing antibody (BAY 1093884) in cynomolgus monkeys. AAPS J 2017; 19 (04) 1186-1195