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Progress in transgenic pigs for xenotransplantation
Author(s) -
Ascher, Nancy L.
Publication year - 1998
Publication title -
liver transplantation and surgery
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.814
H-Index - 150
eISSN - 1527-6473
pISSN - 1074-3022
DOI - 10.1002/lt.500040212
Subject(s) - xenotransplantation , transgene , ic3b , biology , complement system , decay accelerating factor , microbiology and biotechnology , genetically modified mouse , immunostaining , immunohistochemistry , immunology , transplantation , immune system , gene , medicine , genetics
Abstract Background. To prevent the central role played by complement activation in the hyperacute rejection of pig organs transplanted into primates, pigs transgenic for human decay‐accelerating factor (HDAF) have recently been produced. The data presented here extend previous immunohistochemical findings by documenting the immunological characterization and the levels of expression of HDAF in these transgenic pigs. Methods. Animals from 30 independently derived lines were included in this study. HDAF expression was characterized by immunoprecipitation and epitope mapping. Quantitative analysis was performed by radiometric assays followed by Scatchard analysis and by double‐determinant radioimmunoassay. DNA slotblot analysis and densitometric scanning were used to evaluate HDAF transgene copy number. Results. The integrity of HDAF expressed by these transgenic pigs could be demonstrated. HDAF was present in 72% of the organs analyzed, although considerable variation in expression occurred, both between animals and within the same pig. High levels of HDAF on porcine aortic, endothelial cells resulted in iC3b deposition at levels as low as that detected on human endothelial cells. Twenty‐six organs expressed levels of HDAF greater than those observed in the equivalent human tissue. HDAF expression did not correlate with the number of copies of the transgene incorporated into the porcine genome. Conclusions. Transgenic pigs, which express levels of functional HDAF even greater than those observed in humans, have successfully been produced. Pigs transgenic for human complement inhibiting molecules could represent a source of organs for future clinical xenotransplantation.

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