BACKGROUND: After pig liver transplantation in humans, the graft will produce pig complement (C). We investigated in vitro the lysis of wild-type (WT), α1,3-galactosyltransferase gene-knockout (GTKO), and CD46 transgenic (CD46) pig peripheral blood mononuclear cells (PBMC) caused by human anti-pig antibodies (Abs) + pig C. METHODS: Human serum IgM/IgG binding to WT and GTKO PBMC was determined by flow cytometry, and lysis of pig PBMC by a C-dependent cytotoxicity assay using (i) human serum (human Abs + C), (ii) GTKO pig serum (anti-Gal Abs + pig C), (iii) heat-inactivated human serum (human Abs) + rabbit C, or (iv) human Abs + pig C (serum). RESULTS: Binding of human IgM and IgG to GTKO PBMC was less than to WT PBMC (P < 0.05). In the presence of human Abs, lysis of WT and GTKO PBMC by rabbit C was 87 and 13%, respectively (WT vs. GTKO, P < 0.01), but was only 37 and 0.4% in the presence of pig C (WT vs. GTKO, P < 0.05). Human/rabbit C-induced lysis was greater than pig C-induced lysis for both WT and GTKO PBMC. CD46 pig PBMC reduced rabbit/human C- and pig C-mediated lysis (P < 0.05). CONCLUSIONS: Pig livers, particularly from GTKO and CD46 pigs, are likely to have an immunologic advantage over other organs after transplantation into humans. In the absence of pig antibodies directed to human tissues, pig complement is unlikely to cause problems after liver xenotransplantation, especially if GTKO/CD46 pigs are used as the source of the livers.
BACKGROUND: After pig liver transplantation in humans, the graft will produce pig complement (C). We investigated in vitro the lysis of wild-type (WT), α1,3-galactosyltransferase gene-knockout (GTKO), and CD46 transgenic (CD46) pig peripheral blood mononuclear cells (PBMC) caused by human anti-pig antibodies (Abs) + pig C. METHODS:Human serum IgM/IgG binding to WT and GTKO PBMC was determined by flow cytometry, and lysis of pig PBMC by a C-dependent cytotoxicity assay using (i) human serum (human Abs + C), (ii) GTKO pig serum (anti-Gal Abs + pig C), (iii) heat-inactivated human serum (human Abs) + rabbit C, or (iv) human Abs + pig C (serum). RESULTS: Binding of human IgM and IgG to GTKO PBMC was less than to WT PBMC (P < 0.05). In the presence of human Abs, lysis of WT and GTKO PBMC by rabbit C was 87 and 13%, respectively (WT vs. GTKO, P < 0.01), but was only 37 and 0.4% in the presence of pig C (WT vs. GTKO, P < 0.05). Human/rabbit C-induced lysis was greater than pig C-induced lysis for both WT and GTKO PBMC. CD46pig PBMC reduced rabbit/human C- and pig C-mediated lysis (P < 0.05). CONCLUSIONS:Pig livers, particularly from GTKO and CD46pigs, are likely to have an immunologic advantage over other organs after transplantation into humans. In the absence of pig antibodies directed to human tissues, pig complement is unlikely to cause problems after liver xenotransplantation, especially if GTKO/CD46pigs are used as the source of the livers.
Authors: Hayato Iwase; Hong Liu; Eva Schmelzer; Mohamed Ezzelarab; Martin Wijkstrom; Hidetaka Hara; Whayoung Lee; Jagjit Singh; Cassandra Long; Eric Lagasse; Jörg C Gerlach; David K C Cooper; Bruno Gridelli Journal: Xenotransplantation Date: 2017-01-28 Impact factor: 3.907
Authors: Hidetaka Hara; Naoko Koike; Cassandra Long; Jordan Piluek; Danny S Roh; Nirmala SundarRaj; James L Funderburgh; Yoshiaki Mizuguchi; Kumiko Isse; Carol J Phelps; Suyapa F Ball; David L Ayares; David K C Cooper Journal: Invest Ophthalmol Vis Sci Date: 2011-07-15 Impact factor: 4.799
Authors: Huidong Zhou; Hong Liu; Mohamed Ezzelarab; Eva Schmelzer; Yi Wang; Jörg Gerlach; Bruno Gridelli; David K C Cooper Journal: Xenotransplantation Date: 2015-05-07 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: David K C Cooper; Ke-Feng Dou; Kai-Shan Tao; Zhao-Xu Yang; A Joseph Tector; Burcin Ekser Journal: Transplantation Date: 2016-10 Impact factor: 4.939
Authors: Burcin Ekser; Edwin Klein; Jing He; Donna B Stolz; Gabriel J Echeverri; Cassandra Long; Chih Che Lin; Mohamed Ezzelarab; Hidetaka Hara; Massimiliano Veroux; David Ayares; David K C Cooper; Bruno Gridelli Journal: PLoS One Date: 2012-01-11 Impact factor: 3.240
Authors: Andrew T Crane; Rajagopal N Aravalli; Atsushi Asakura; Andrew W Grande; Venkatramana D Krishna; Daniel F Carlson; Maxim C-J Cheeran; Georgette Danczyk; James R Dutton; Perry B Hackett; Wei-Shou Hu; Ling Li; Wei-Cheng Lu; Zachary D Miller; Timothy D O'Brien; Angela Panoskaltsis-Mortari; Ann M Parr; Clairice Pearce; Mercedes Ruiz-Estevez; Maple Shiao; Christopher J Sipe; Nikolas G Toman; Joseph Voth; Hui Xie; Clifford J Steer; Walter C Low Journal: Cell Transplant Date: 2019-08-19 Impact factor: 4.064