306 GENERATION OF HUMAN A20 GENE-TRANSGENIC PORCINE FETAL FIBROBLASTS FOR SOMATIC CELL NUCLEAR TRANSFER
M. Oropeza, B. Petersen, N. Hornen, D. Herrmann and H. Niemann
Reproduction, Fertility and Development
20(1) 233 - 233
Published: 12 December 2007
Abstract
The aim of this project was to produce transgenic pigs with improved features in xenotransplantation, by expressing the human A20 gene to modulate the acute vascular rejection (AVR) reaction ocurring after porcine-to-human xenotransplantation. The A20 gene was originally characterized as a tumor necrosis factor-inducible gene in human umbilical vein endothelial cells (Opipari AW et al. 1990 J. Biol. Chem. 25, 14 705–14 708). The gene is both anti-apoptotic and anti-inflammatory in endothelial cells (Ferran C 2006 Transplantation 82(1 Suppl.), S36–S40) and could thus prevent endothelial cell activation leading to AVR. The hA20-expression vector driven by the CAGGS hybrid promoter (chicken β-actin–rabbit β-globin) containing an IRES-neomycin resistance cassette (9.1 kb) was transfected into porcine fetal fibroblasts (PFF) derived from German Landrace porcine fetal explant cultures. Transfection of 3 × 106 cells was accomplished at 450 V and 350 µF with 10 µg of plasmid DNA. Then, G418-resistant cell clones (800 µg mL–1) were screened by PCR with hA20-specific primers for hA20 integration. Eighty clones were A20-positive in PCR screening from 4 rounds of transfection. One cell clone was verified by DNA sequencing and subsequently used as donor cells in somatic cell nuclear transfer. One hundred sixty-nine embryos were transferred to 2 synchronized peripuberal German Landrace gilts, respectively. Ultrasound examination of recipient sows on Day 22 after embryo transfer confirmed established pregnancies in both recipients. One pregnancy was allowed to go to term and 7 healthy piglets were born, whereas the second pregnancy was terminated on Day 70 of pregnancy for detailed expression analysis of the 8 isolated fetuses. Results showed that the A20 vector can be integrated in PFF, and A20-transgenic PFF can be successfully used in somatic cell nuclear transfer to establish pregnancies. Further analysis will focus on the expression levels and patterns in A20-positive cell clones and the biological function in transgenic piglets. Functional assays will be conducted in vitro and in vivo.We thank Prof. Beyaert of Ghent University, Belgium for providing us with the expression vector pCAGGSEhA20.
https://doi.org/10.1071/RDv20n1Ab306
© CSIRO 2007