In vitro and in vivo culture effects on mRNA expression of genes involved in metabolism and apoptosis in bovine embryos
Hiemke M. Knijn A C , Christine Wrenzycki B , Peter J. M. Hendriksen A , Peter L. A. M. Vos A , Elly C. Zeinstra A , Gijsbert C. van der Weijden A , Heiner Niemann B and Steph J. Dieleman AA Department of Farm Animal Health, Faculty of Veterinary Medicine, Utrecht University, Yalelaan 7, 3584 CL Utrecht, the Netherlands.
B Department of Biotechnology, Institute for Animal Breeding (FAL), Neustadt, Germany.
C Corresponding author. Email: h.knijn@vet.uu.nl
Reproduction, Fertility and Development 17(8) 775-784 https://doi.org/10.1071/RD05038
Submitted: 30 March 2005 Accepted: 25 September 2005 Published: 16 December 2005
Abstract
Bovine blastocysts produced in vitro differ substantially from their in vivo-derived counterparts with regard to glucose metabolism, level of apoptosis and mRNA expression patterns. Maternal embryonic genomic transition is a critical period in which these changes could be induced. The goals of the present study were twofold: (1) to identify the critical period of culture during which the differences in expression of gene transcripts involved in glucose metabolism are induced; and (2) to identify gene transcripts involved in apoptosis that are differentially expressed in in vitro- and in vivo-produced blastocysts. Relative abundances of transcripts for the glucose transporters Glut-1, Glut-3, Glut-4 and Glut-8, and transcripts involved in the apoptotic cascade, including BAX, BCL-XL, XIAP and HSP 70.1, were analysed by a semiquantitative reverse transcription–polymerase chain reaction assay in single blastocysts produced in vitro or in vivo for specific time intervals, that is, before or after maternal embryonic transition. Whether the culture environment was in vitro or in vivo affected the expression of glucose transporter transcripts Glut-3, Glut-4 and Glut-8. However, the critical period during culture responsible for these changes, before or after maternal embryonic transition, could not be determined. With the exception of XIAP, no effects of culture system on the mRNA expression patterns of BAX, BCL-XL and HSP 70.1 could be observed. These data show that expression of XIAP transcripts in expanded blastocysts is affected by in vitro culture. These findings add to the list of bovine genes aberrantly expressed in culture conditions, but do not support the hypothesis that maternal embryonic transition is critical in inducing the aberrations in gene expression patterns studied here.
Acknowledgments
We are grateful to Christine Oei, Thea Blankenstein, Henk Heuveling, Klaus-Gerd Hadeler and Doris Herrmann for excellent technical assistance, and to the animal handlers for management of the animals. The critical reading of the manuscript by Ms Jane Collins, Boston, is highly appreciated. The authors thank Holland Genetics (Arnhem, the Netherlands) for supplying SOF culture medium. The Netherlands Organization for Scientific Research supported this study.
Abe, H. , Morimatsu, M. , Nikami, H. , Miyashige, T. , and Saito, M. (1997). Molecular cloning and mRNA expression of the bovine insulin-responsive glucose transporter (GLUT4). J. Anim. Sci. 75, 182–188.
| PubMed |
Telford, N. A. , Watson, A. J. , and Schultz, G. A. (1990). Transition from maternal to embryonic control in early mammalian development: a comparison of several species. Mol. Reprod. Dev. 26, 90–100.
| Crossref | GoogleScholarGoogle Scholar | PubMed |
Tesfaye, D. , Ponsuksili, S. , Wimmers, K. , Gilles, M. , and Schellander, K. (2004). A comparative expression analysis of gene transcripts in post-fertilization developmental stages of bovine embryos produced in vitro or in vivo. Reprod. Domest. Anim. 39, 396–404.
| Crossref | GoogleScholarGoogle Scholar | PubMed |
van Soom, A. , Boerjan, M. L. , Bols, P. E. , Vanroose, G. , Lein, A. , Coryn, M. , and de Kruif, A. (1997). Timing of compaction and inner cell allocation in bovine embryos produced in vivo after superovulation. Biol. Reprod. 57, 1041–1049.
| PubMed |
van Wagtendonk-de Leeuw, A. M. , Mullaart, E. , de Roos, A. P. , Merton, J. S. , den Daas, J. H. , Kemp, B. , and de Ruigh, L. (2000). Effects of different reproduction techniques: AI MOET or IVP, on health and welfare of bovine offspring. Theriogenology 53, 575–597.
| Crossref | GoogleScholarGoogle Scholar | PubMed |
Viuff, D. , Avery, B. , Greve, T. , King, W. A. , and Hyttel, P. (1996). Transcriptional activity in in vitro produced bovine two- and four-cell embryos. Mol. Reprod. Dev. 43, 171–179.
| Crossref | GoogleScholarGoogle Scholar | PubMed |
Wales, R. G. (1986). Measurement of metabolic turnover in single mouse embryos. J. Reprod. Fertil. 76, 717–725.
| PubMed |
Wrenzycki, C. , Herrmann, D. , Carnwath, J. W. , and Niemann, H. (1996). Expression of the gap junction gene connexin43 (Cx43) in preimplantation bovine embryos derived in vitro or in vivo. J. Reprod. Fertil. 108, 17–24.
| PubMed |
Wrenzycki, C. , Herrmann, D. , Carnwath, J. W. , and Niemann, H. (1999). Alterations in the relative abundance of gene transcripts in preimplantation bovine embryos cultured in medium supplemented with either serum or PVA. Mol. Reprod. Dev. 53, 8–18.
| Crossref | GoogleScholarGoogle Scholar | PubMed |
Wrenzycki, C. , Herrmann, D. , Keskintepe, L. , Martins, A. , Sirisathien, S. , Brackett, B. , and Niemann, H. (2001). Effects of culture system and protein supplementation on mRNA expression in pre-implantation bovine embryos. Hum. Reprod. 16, 893–901.
| Crossref | GoogleScholarGoogle Scholar | PubMed |
Wrenzycki, C. , Lucas-Hahn, A. , Herrmann, D. , Lemme, E. , Korsawe, K. , and Niemann, H. (2002). In vitro production and nuclear transfer affect dosage compensation of the X-linked gene transcripts G6PD, PGK, and Xist in preimplantation bovine embryos. Biol. Reprod. 66, 127–134.
| PubMed |
Wyllie, A. H. (1995). The genetic regulation of apoptosis. Curr. Opin. Genet. Dev. 5, 97–104.
| Crossref | GoogleScholarGoogle Scholar | PubMed |
