BACKGROUND: Xenograft rejection may predispose to vascular thrombosis because of putative cross-species' functional incompatibilities between natural anticoagulants present on the donor endothelium and host activated coagulation factors. For example, porcine thrombomodulin expressed on porcine aortic endothelial cells (PAEC) does not provide the expected thrombomodulin (TM)-cofactor activity for human protein C in the presence of human thrombin. In addition, TM may be down-regulated after cellular activation. Our aim was to express human TM cofactor activity in PAEC and to study the proinflammatory effect of tumor necrosis factor-alpha (TNF-alpha) on stable expressed human thrombomodulin in vitro. METHODS AND RESULTS: Retroviral transduction of PAEC with the gene encoding for human thrombomodulin (hTM) resulted in expression of high levels of specific TM cofactor activity on PAEC (0.62 microg/ml activated protein C/10(5) cells). High-level expression of hTM resulted in a 620-fold higher activation of human protein C in the presence of human thrombin when compared with mock-transduced PAEC (0.0001 microg/ml/10(5) cells; P<0.001). Transduced PAEC expressing hTM also bound more human thrombin than control PAEC, as determined by inhibition of thrombin-induced platelet activation (P<0.05). We noted that exposure to TNF-alpha significantly reduced exogenous hTM cofactor activity on transduced PAEC in a time- and dose-dependent fashion; this occurred despite the relatively stable expression of hTM mRNA and hTM antigen in these cells. Treatment of transduced PAEC with selected antioxidants could protect against the loss of hTM cofactor activity directly associated with the oxidative stress induced by TNF-alpha activation responses. CONCLUSIONS: Our data show that the functional deficiency of the anticoagulant protein C pathway in PAEC may be corrected by viral transduction of these cells. As analysis of the hTM function showed modulation under conditions of cellular activation, we suggest that expression of hTM mutants resistant to oxidation may have greater therapeutic utility in the genetic modification of porcine xenografts.
BACKGROUND: Xenograft rejection may predispose to vascular thrombosis because of putative cross-species' functional incompatibilities between natural anticoagulants present on the donor endothelium and host activated coagulation factors. For example, porcine thrombomodulin expressed on porcine aortic endothelial cells (PAEC) does not provide the expected thrombomodulin (TM)-cofactor activity for humanprotein C in the presence of humanthrombin. In addition, TM may be down-regulated after cellular activation. Our aim was to express humanTM cofactor activity in PAEC and to study the proinflammatory effect of tumor necrosis factor-alpha (TNF-alpha) on stable expressed humanthrombomodulin in vitro. METHODS AND RESULTS: Retroviral transduction of PAEC with the gene encoding for humanthrombomodulin (hTM) resulted in expression of high levels of specific TM cofactor activity on PAEC (0.62 microg/ml activated protein C/10(5) cells). High-level expression of hTM resulted in a 620-fold higher activation of humanprotein C in the presence of humanthrombin when compared with mock-transduced PAEC (0.0001 microg/ml/10(5) cells; P<0.001). Transduced PAEC expressing hTM also bound more humanthrombin than control PAEC, as determined by inhibition of thrombin-induced platelet activation (P<0.05). We noted that exposure to TNF-alpha significantly reduced exogenous hTM cofactor activity on transduced PAEC in a time- and dose-dependent fashion; this occurred despite the relatively stable expression of hTM mRNA and hTM antigen in these cells. Treatment of transduced PAEC with selected antioxidants could protect against the loss of hTM cofactor activity directly associated with the oxidative stress induced by TNF-alpha activation responses. CONCLUSIONS: Our data show that the functional deficiency of the anticoagulant protein C pathway in PAEC may be corrected by viral transduction of these cells. As analysis of the hTM function showed modulation under conditions of cellular activation, we suggest that expression of hTM mutants resistant to oxidation may have greater therapeutic utility in the genetic modification of porcine xenografts.
Authors: Hayato Iwase; Burcin Ekser; Vikas Satyananda; Jay Bhama; Hidetaka Hara; Mohamed Ezzelarab; Edwin Klein; Robert Wagner; Cassandra Long; Jnanesh Thacker; Jiang Li; Hao Zhou; Maolin Jiang; Santosh Nagaraju; Huidong Zhou; Massimiliano Veroux; Pietro Bajona; Martin Wijkstrom; Yi Wang; Carol Phelps; Nikolai Klymiuk; Eckhard Wolf; David Ayares; David K C Cooper Journal: Xenotransplantation Date: 2015-04-03 Impact factor: 3.907
Authors: Burcin Ekser; Christopher Burlak; Joshua P Waldman; Andrew J Lutz; Leela L Paris; Massimiliano Veroux; Simon C Robson; Michael A Rees; David Ayares; Bruno Gridelli; A Joseph Tector; David Kc Cooper Journal: Expert Rev Clin Immunol Date: 2012-09 Impact factor: 4.473
Authors: K F Eddy Lee; Evelyn J Salvaris; Jean-Christian Roussel; Simon C Robson; Anthony J F d'Apice; Peter J Cowan Journal: Xenotransplantation Date: 2008 May-Jun Impact factor: 3.907
Authors: John C LaMattina; Lars Burdorf; Tianshu Zhang; Elana Rybak; Xiangfei Cheng; Raghava Munivenkatappa; Isabelle I Salles; Katleen Broos; Evelyn Sievert; Brian McCormick; Marc Decarlo; David Ayares; Hans Deckmyn; Agnes M Azimzadeh; Richard N Pierson; Rolf N Barth Journal: Xenotransplantation Date: 2014-03-17 Impact factor: 3.907
Authors: Hayato Iwase; Burcin Ekser; Hidetaka Hara; Carol Phelps; David Ayares; David K C Cooper; Mohamed B Ezzelarab Journal: Xenotransplantation Date: 2013-11-05 Impact factor: 3.907
Authors: Guerard W Byrne; Agnes M Azimzadeh; Mohamed Ezzelarab; Henry D Tazelaar; Burcin Ekser; Richard N Pierson; Simon C Robson; David K C Cooper; Christopher G A McGregor Journal: Xenotransplantation Date: 2013 Sep-Oct Impact factor: 3.907