The α-Gal epitope (Galα1,3Galα1,4GlcNAc-R) is responsible for hyperacute rejection (HAR) during transgenic pig-to-non-human primate xenotransplantation. There are genes related to the expression of α-Gal epitope such as α1,3Galactosyltransferase gene (GT-/-) and the isoglobotrihexosylceramide synthase (iGb3s-/-). This study was performed to investigate the expression of α-Gal epitope in the skin derived from GT-/- transgenic pig. The skin (7/1000 inches) was obtained by dermatome (Zimmer® Electric Dermatome) from one month old of wildtype (WT) and GT-/- piglets, respectively. The skins were fixed, dehydrated, cleaned, and embedded. To analyze the expression of α-Gal epitope, the paraffin section of WT and GT-/- were stained with BS-IB4 lectin and isoglobotrihexosylceramide synthase antibody. There was a strong BS-IB4 lectin signal in the skin of WT, but not detected in GT-/-. However, the iGb3s positive signals were stained in the skin of both WT and GT-/-. Taken together, it can be postulated that the knocked out of GT gene may not enough to inhibit the expression of α-Gal epitope. Further studies are needed to evaluate the functions of the double knock out of GT and iGb3s on the expression of α-Gal epitope.
To overcome the hyperacute immune rejection during pig-to-non-human primates xenotranasplantation, we have produced and bred α-1,3-galactosyltransferase knock-out (GalT —/—) pigs. In this study, the somatic cells and tissues from the GalT —/— pigs were characterized by an analysis of the expression of Galα-1,3-Gal (α-Gal) epitope. Briefly, ear fibroblast cell lines of 19 homozygous GalT —/— pigs were established and cryopreserved. The expression of α-Gal epitope in the cells was measured by fluorescence activated cell sorter (FACS) analysis using BS-I-B4 lectin. Also, the homozygous (GalT —/—) cells and tissues samples were immunostained with BS-I-B4 lectin for analysis of α-Gal epitope expression. The results showed that the expression of α-Gal epitope in GalT —/— cells (0.2 %) were significantly (p< 0.05) down-regulated to the range of cynomolgus monkey fibroblast (0.2 %) cells compared to heterozygous (GalT —/+) (9.3 %) and wild type (GalT +/+) (93.7 %) fibroblast cells. In the immunostaining results, while the expression of α-Gal epitope was detected a partly in GalT —/+ cells and mostly in GalT +/+ cells, it was almost not detected in the GalT —/— cells. Also, immunostaining results from various tissues of the GalT —/— pig showed that the expression of α-Gal epitope was not detectable, whereas various tissues from GalT +/+ pig showed a strong expression of α-Gal epitope. Our results demonstrated that α-Gal epitope expressions from GalT —/— pigs were successfully knocked out to prevent hyperacute immune rejection for further study of xenotransplantation.