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Reproduction, Fertility and Development Reproduction, Fertility and Development Society
Vertebrate reproductive science and technology
RESEARCH ARTICLE

43 PATTERN OF NUCLEOLI FORMATION IN RACCOON-PORCINE INTERSPECIES SOMATIC CELL NUCLEAR TRANSFER EMBRYOS

Y. H. Nam A B , Y. Jeon A , S. A. Cheong A , S. S. Kwak A and S. H. Hyun A
+ Author Affiliations
- Author Affiliations

A Laboratory of Veterinary Embryology and Biotechnology, College of Veterinary Medicine, Chungbuk National University, Cheongju 361-763, Chungbuk, Korea;

B Wild Animal Rescue, Gyeonggi Livestock and Veterinary Service, Yongin, Gyeonggi, Korea

Reproduction, Fertility and Development 25(1) 169-169 https://doi.org/10.1071/RDv25n1Ab43
Published: 4 December 2012

Abstract

Recently, great focus has been on the rescue of endangered animals through somatic cell nuclear transfer (SCNT). Because it is difficult to obtain the oocytes of endangered species, interspecies SCNT (iSCNT) methods have been attempted. Numerous iSCNT embryos have shown unsuccessful development due to aberrations in expression of housekeeping genes and genes dependent on the major embryonic genome activation (EGA). In particular, aberrant EGA may cause the arrest of nucleoli formation and developmental block in embryos. According to this concept, we performed raccoon iSCNT using porcine oocytes and analyzed iSCNT embryo development pattern and formation of nucleoli. Enucleated porcine oocytes were fused with raccoon fibroblasts by electrofusion. Cleavage and blastocyst formation were evaluated under a stereomicroscope at 48 and 168 h post-activation (hpa), respectively. To confirm the formation of nucleoli, which can be detected by C23 antibody labeling in many mammalian species, C23 immunocytochemistry was performed at 48 and 72 hpa. A total of 158 iSCNT embryos were cultured; 68.5% of the raccoon iSCNT embryos were cleaved at 48 hpa (1-cell stage: 9.7%; 2-cell stage: 14.4%; 4-cell stage: 34.1%; 6-cell stage: 12.7%; 8-cell stage: 7.3%; fragmented: 21.8%). But, the embryos seen as 5- to 8-cell stage did not have the same number of nuclei as their blastomere number. When raccoon iSCNT embryos were stained by Hoechst 33342, 5- to 8-blastomere raccoon iSCNT embryos had only 4 nuclei. The raccoon iSCNT embryos did not develop past the 4-cell stage and failed to form blastocysts. In the control group, 65.2% of pig SCNT embryos were cleaved at 48 hpa (1-cell stage: 8.0%; 2-cell stage: 4.2%; 4-cell stage: 23.6%; 6-cell stage: 13.6%; 8-cell stage: 23.8%; fragmented: 26.8%), and 10.0% of pig SCNT embryos developed to blastocysts. In raccoon iSCNT embryos, raccoon nuclei failed to form nucleoli at 48 and 72 hpa. By contrast, pig SCNT embryos showed 18.8 and 87.9% nucleoli formation at 48 and 72 hpa. Our results demonstrate that 4-cell-stage embryos of raccoon-porcine hybrid embryos may be produced by SCNT methods. The pig oocytes partly supported the remodeling and reprogramming of the raccoon somatic cell nuclei, but they were unable to support nucleoli formation. Moreover, aberrant nucleoli formation caused the unsuccessful development of raccoon SCNT embryos to the blastocyst stage.

This work was supported by a grant from the Next Generation BioGreen 21 program (no. PJ008121012011), Rural Development Administration, Republic of Korea.