Literature DB >> 24909344

Reduced binding of human antibodies to cells from GGTA1/CMAH KO pigs.

C Burlak1, L L Paris, A J Lutz, R A Sidner, J Estrada, P Li, M Tector, A J Tector.   

Abstract

Xenotransplantation using genetically modified pig organs could solve the donor organ shortage problem. Two inactivated genes that make humans unique from pigs are GGTA1 and CMAH, the products of which produce the carbohydrate epitopes, aGal and Neu5Gc that attract preformed human antibody. When the GGTA1 and CMAH genes were deleted in pigs, human antibody binding was reduced in preliminary analysis. We analyzed the binding of human IgM and IgG from 121 healthy human serum samples for binding to GGTA1 KO and GGTA1/CMAH KO peripheral blood mononuclear cells (PBMCs). We analyzed a sub population for reactivity toward genetically modified pig PBMCs as compared to chimpanzee and human PBMCs. Deletion of the GGTA1 and CMAH genes in pigs improved the crossmatch results beyond those observed with chimpanzees. Sorting the 121 human samples tested against the GGTA1/CMAH KO pig PBMCs did not reveal a distinguishing feature such as blood group, age or gender. Modification of genes to make pig carbohydrates more similar to humans has improved the crossmatch with human serum significantly. © Copyright 2014 The American Society of Transplantation and the American Society of Transplant Surgeons.

Entities:  

Keywords:  Antibody-mediated rejection; crossmatch; genetically modified pigs; xenotransplantation

Mesh:

Substances:

Year:  2014        PMID: 24909344      PMCID: PMC4366649          DOI: 10.1111/ajt.12744

Source DB:  PubMed          Journal:  Am J Transplant        ISSN: 1600-6135            Impact factor:   8.086


  25 in total

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Authors:  K REEMTSMA; B H MCCRACKEN; J U SCHLEGEL; M A PEARL; C W PEARCE; C W DEWITT; P E SMITH; R L HEWITT; R L FLINNER; O CREECH
Journal:  Ann Surg       Date:  1964-09       Impact factor: 12.969

2.  RENAL HETEROTRANSPLANTATION FROM BABOON TO MAN: EXPERIENCE WITH 6 CASES.

Authors:  T E STARZL; T L MARCHIORO; G N PETERS; C H KIRKPATRICK; W E WILSON; K A PORTER; D RIFKIND; D A OGDEN; C R HITCHCOCK; W R WADDELL
Journal:  Transplantation       Date:  1964-11       Impact factor: 4.939

3.  PATHOLOGICAL CHANGES IN SIX TREATED BABOON-TO-MAN RENAL HETEROTRANSPLANTS.

Authors:  K A PORTER; T L MARCHIORO; T E STARZL
Journal:  Br J Urol       Date:  1965-06

4.  Marked prolongation of porcine renal xenograft survival in baboons through the use of alpha1,3-galactosyltransferase gene-knockout donors and the cotransplantation of vascularized thymic tissue.

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5.  The role of antibodies in acute vascular rejection of pig-to-baboon cardiac transplants.

Authors:  S S Lin; B C Weidner; G W Byrne; L E Diamond; J H Lawson; C W Hoopes; L J Daniels; C W Daggett; W Parker; R C Harland; R D Davis; R R Bollinger; J S Logan; J L Platt
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6.  The molecular basis for galalpha(1,3)gal expression in animals with a deletion of the alpha1,3galactosyltransferase gene.

Authors:  Julie Milland; Dale Christiansen; Brooke D Lazarus; Simon G Taylor; Pei Xiang Xing; Mauro S Sandrin
Journal:  J Immunol       Date:  2006-02-15       Impact factor: 5.422

7.  Acute rejection is associated with antibodies to non-Gal antigens in baboons using Gal-knockout pig kidneys.

Authors:  Gang Chen; Hua Qian; Thomas Starzl; Hongtao Sun; Bertha Garcia; Ximo Wang; Yishai Wise; Yuanqing Liu; Ying Xiang; Laura Copeman; Weihua Liu; Anthony Jevnikar; William Wall; David K C Cooper; Noriko Murase; Yifan Dai; Wanyu Wang; Yuliang Xiong; David J White; Robert Zhong
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8.  Production of alpha-1,3-galactosyltransferase knockout pigs by nuclear transfer cloning.

Authors:  Liangxue Lai; Donna Kolber-Simonds; Kwang-Wook Park; Hee-Tae Cheong; Julia L Greenstein; Gi-Sun Im; Melissa Samuel; Aaron Bonk; August Rieke; Billy N Day; Clifton N Murphy; David B Carter; Robert J Hawley; Randall S Prather
Journal:  Science       Date:  2002-01-03       Impact factor: 47.728

9.  α1,3Galactosyltransferase knockout pigs produce the natural anti-Gal antibody and simulate the evolutionary appearance of this antibody in primates.

Authors:  Uri Galili
Journal:  Xenotransplantation       Date:  2013-08-22       Impact factor: 3.907

10.  Production of alpha-1,3-galactosyltransferase null pigs by means of nuclear transfer with fibroblasts bearing loss of heterozygosity mutations.

Authors:  Donna Kolber-Simonds; Liangxue Lai; Steven R Watt; Maria Denaro; Scott Arn; Monica L Augenstein; Jeffery Betthauser; David B Carter; Julia L Greenstein; Yanhong Hao; Gi-Sun Im; Zhonghua Liu; Greg D Mell; Clifton N Murphy; Kwang-Wook Park; August Rieke; David J J Ryan; David H Sachs; Erik J Forsberg; Randall S Prather; Robert J Hawley
Journal:  Proc Natl Acad Sci U S A       Date:  2004-05-03       Impact factor: 11.205
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  32 in total

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Authors:  Jose L Estrada; Greg Martens; Ping Li; Andrew Adams; Kenneth A Newell; Mandy L Ford; James R Butler; Richard Sidner; Matt Tector; Joseph Tector
Journal:  Xenotransplantation       Date:  2015-03-01       Impact factor: 3.907

2.  Silencing porcine genes significantly reduces human-anti-pig cytotoxicity profiles: an alternative to direct complement regulation.

Authors:  James R Butler; Gregory R Martens; Jose L Estrada; Luz M Reyes; Joseph M Ladowski; Cesare Galli; Andrea Perota; Conor M Cunningham; Matthew Tector; A Joseph Tector
Journal:  Transgenic Res       Date:  2016-04-21       Impact factor: 2.788

3.  Pre-transplant antibody screening and anti-CD154 costimulation blockade promote long-term xenograft survival in a pig-to-primate kidney transplant model.

Authors:  Laura Higginbotham; Dave Mathews; Cynthia A Breeden; Mingqing Song; Alton Brad Farris; Christian P Larsen; Mandy L Ford; Andrew J Lutz; Matthew Tector; Kenneth A Newell; A Joseph Tector; Andrew B Adams
Journal:  Xenotransplantation       Date:  2015-04-03       Impact factor: 3.907

Review 4.  In Search of the Ideal Valve: Optimizing Genetic Modifications to Prevent Bioprosthetic Degeneration.

Authors:  Benjamin Smood; Hidetaka Hara; David C Cleveland; David K C Cooper
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Review 5.  Genetically-engineered pigs as sources for clinical red blood cell transfusion: What pathobiological barriers need to be overcome?

Authors:  Benjamin Smood; Hidetaka Hara; Leah J Schoel; David K C Cooper
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6.  Initial in vitro studies on tissues and cells from GTKO/CD46/NeuGcKO pigs.

Authors:  Whayoung Lee; Hidetaka Hara; Mohamed B Ezzelarab; Hayato Iwase; Rita Bottino; Cassandra Long; Jagdeece Ramsoondar; David Ayares; David K C Cooper
Journal:  Xenotransplantation       Date:  2016-03-14       Impact factor: 3.907

7.  Immune Responses of HLA Highly Sensitized and Nonsensitized Patients to Genetically Engineered Pig Cells.

Authors:  Zhongqiang Zhang; Hidetaka Hara; Cassandra Long; Hayato Iwase; Haizhi Qi; Camila Macedo; Massimo Mangiola; Adriana Zeevi; Mohamed Ezzelarab; David Ayares; David K C Cooper; Martin Wijkstrom
Journal:  Transplantation       Date:  2018-05       Impact factor: 4.939

Review 8.  The role of genetically engineered pigs in xenotransplantation research.

Authors:  David K C Cooper; Burcin Ekser; Jagdeece Ramsoondar; Carol Phelps; David Ayares
Journal:  J Pathol       Date:  2015-10-07       Impact factor: 7.996

9.  Expression of NeuGc on Pig Corneas and Its Potential Significance in Pig Corneal Xenotransplantation.

Authors:  Whayoung Lee; Yuko Miyagawa; Cassandra Long; Burcin Ekser; Eric Walters; Jagdeece Ramsoondar; David Ayares; A Joseph Tector; David K C Cooper; Hidetaka Hara
Journal:  Cornea       Date:  2016-01       Impact factor: 2.651

Review 10.  Human risk of diseases associated with red meat intake: Analysis of current theories and proposed role for metabolic incorporation of a non-human sialic acid.

Authors:  Frederico Alisson-Silva; Kunio Kawanishi; Ajit Varki
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