BACKGROUND: Thrombotic vascular occlusion occurs in disorders of diverse etiology, including atherosclerosis, vasculitis, and disseminated intravascular coagulation. The same process results in hyperacute rejection of renal allografts transplanted into sensitized patients and remains a major problem in experimental xenotransplantation. METHODS: We have previously described the design and expression of several genetic constructs encoding novel fusion proteins with anticoagulant properties. They are based on two naturally occurring soluble anticoagulant proteins, human tissue factor pathway inhibitor (hTFPI) and the leech protein hirudin, which act early and late in the clotting cascade, respectively. We report the expression of human hTFPI-CD4 on the surface of immortalized porcine endothelial cells (IPEC), and show that it functions across the species divide as evidenced by the binding of membrane-expressed porcine tissue factor (pTF)-human factor VIIa complexes. RESULTS: Using a human plasma recalcification clotting assay, we distinguished between pTF-dependent and pTF-independent fibrin generation, and we have demonstrated that expression of hTFPI-CD4 on IPEC effectively prevented pTF-dependent clotting. Moreover, we show that when hTFPI-CD4 was co-expressed with the hirudin construct, the procoagulant properties of in vitro cultured, activated IPEC were almost completely abolished. CONCLUSIONS: These results suggest that these novel anticoagulant molecules may prove useful therapeutic agents for gene therapy or for transgenic expression in animals whose organs may be used for cliniCal xenotransplantation.
BACKGROUND: Thrombotic vascular occlusion occurs in disorders of diverse etiology, including atherosclerosis, vasculitis, and disseminated intravascular coagulation. The same process results in hyperacute rejection of renal allografts transplanted into sensitized patients and remains a major problem in experimental xenotransplantation. METHODS: We have previously described the design and expression of several genetic constructs encoding novel fusion proteins with anticoagulant properties. They are based on two naturally occurring soluble anticoagulant proteins, human tissue factor pathway inhibitor (hTFPI) and the leech protein hirudin, which act early and late in the clotting cascade, respectively. We report the expression of human hTFPI-CD4 on the surface of immortalized porcine endothelial cells (IPEC), and show that it functions across the species divide as evidenced by the binding of membrane-expressed porcine tissue factor (pTF)-human factor VIIa complexes. RESULTS: Using a human plasma recalcification clotting assay, we distinguished between pTF-dependent and pTF-independent fibrin generation, and we have demonstrated that expression of hTFPI-CD4 on IPEC effectively prevented pTF-dependent clotting. Moreover, we show that when hTFPI-CD4 was co-expressed with the hirudin construct, the procoagulant properties of in vitro cultured, activated IPEC were almost completely abolished. CONCLUSIONS: These results suggest that these novel anticoagulant molecules may prove useful therapeutic agents for gene therapy or for transgenic expression in animals whose organs may be used for cliniCal xenotransplantation.
Authors: Bao-Ngoc H Nguyen; Agnes M Azimzadeh; Carsten Schroeder; Thomas Buddensick; Tianshu Zhang; Amal Laaris; Megan Cochrane; Henk-Jan Schuurman; David H Sachs; James S Allan; Richard N Pierson Journal: Xenotransplantation Date: 2011 Mar-Apr Impact factor: 3.907
Authors: Donald G Harris; Kevin J Quinn; Siamak Dahi; Lars Burdorf; Agnes M Azimzadeh; Richard N Pierson Journal: Xenotransplantation Date: 2014-07-05 Impact factor: 3.907
Authors: Donald G Harris; Prabhjot K Benipal; Xiangfei Cheng; Lars Burdorf; Agnes M Azimzadeh; Richard N Pierson Journal: PLoS One Date: 2015-04-01 Impact factor: 3.240
Authors: Hannah Wilkinson; Hugh Leonard; Michael G Robson; Richard Smith; ElLi Tam; John H McVey; Daniel Kirckhofer; Daxin Chen; Anthony Dorling Journal: Front Immunol Date: 2022-09-12 Impact factor: 8.786