Research Article

Changes in gene expression profiles of bovine embryos produced in vitro, by natural ovulation, or hormonal superstimulation

Published: November 24, 2009
Genet. Mol. Res. 8 (4) : 1398-1407 DOI: https://doi.org/10.4238/vol8-4gmr646
Cite this Article:
T.C.D. Mundim, A.F. Ramos, R. Sartori, M.A.N. Dode, E.O. Melo, L.F.S. Gomes, R. Rumpf, M.M. Franco (2009). Changes in gene expression profiles of bovine embryos produced in vitro, by natural ovulation, or hormonal superstimulation. Genet. Mol. Res. 8(4): 1398-1407. https://doi.org/10.4238/vol8-4gmr646
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Abstract

Embryos produced by hormonal superstimulation have been used as an in vivo control in most published research on embryo gene expression. However, it is not known if this is the most appropriate control for gene expression profile studies. We compared the expression of GRB-10, IGF-II, IGF-IIR, MnSOD, GPX-4, catalase, BAX, and interferon-τ genes, in embryos produced in vivo by hormonal superovulation (SOV), by in vitro fertilization (IVF) or in vivo without any hormonal stimulus (NOV). GRB-10 was less expressed in NOV than IVF embryos, whereas no differences were found for the other genes. The genes related to stress response were then grouped and compared; the sum of expression of MnSOD, GPX-4, and catalase genes tended to be greater in IVF than NOV embryos. A correlation analysis was performed; we found a distinct behavior for NOV embryos when compared with SOV and IVF in the expression of GRB-10, IGF-II and IGF-IIR genes. However, the behavior of these genes was similar in SOV and IVF embryos. We conclude that ovarian hormonal stimulation can affect embryos by altering gene expression. Although this conclusion was based on investigation of only a few genes, we suggest that SOV embryos should be used with caution as a control in gene expression studies.

Embryos produced by hormonal superstimulation have been used as an in vivo control in most published research on embryo gene expression. However, it is not known if this is the most appropriate control for gene expression profile studies. We compared the expression of GRB-10, IGF-II, IGF-IIR, MnSOD, GPX-4, catalase, BAX, and interferon-τ genes, in embryos produced in vivo by hormonal superovulation (SOV), by in vitro fertilization (IVF) or in vivo without any hormonal stimulus (NOV). GRB-10 was less expressed in NOV than IVF embryos, whereas no differences were found for the other genes. The genes related to stress response were then grouped and compared; the sum of expression of MnSOD, GPX-4, and catalase genes tended to be greater in IVF than NOV embryos. A correlation analysis was performed; we found a distinct behavior for NOV embryos when compared with SOV and IVF in the expression of GRB-10, IGF-II and IGF-IIR genes. However, the behavior of these genes was similar in SOV and IVF embryos. We conclude that ovarian hormonal stimulation can affect embryos by altering gene expression. Although this conclusion was based on investigation of only a few genes, we suggest that SOV embryos should be used with caution as a control in gene expression studies.