Rodríguez-Alvarez Lleretny, Cox José, Tovar Heribelt, Einspanier Ralf, Castro Fidel Ovidio
Department of Animal Science, Faculty of Veterinary Medicine, Universidad de Concepción, Chillán, Chile.
Zygote. 2010 Aug;18(3):269-79. doi: 10.1017/S0967199409990323. Epub 2010 Apr 30.
In cattle, embryos elongate before implantation and after hatching. Changes in gene expression during this transition are not well studied. Especially important are variations in the expression of pluripotency-associated genes as a result of assisted reproductive biotechnologies, such as cloning and in vitro fertilization (IVF). We hypothesize that there will be a decline in the expression of key pluripotency-associated genes and an increase in the expression of IFN-tau in elongated embryos when compared with day-7 blastocysts. To test this we generated cloned and IVF bovine day-7 blastocyst and day-17 elongated embryos (day 0 = day of nucleus transfer or IVF). Gene expression in all embryos was assessed via RT-qPCR. OCT4 was overexpressed (p < 0.05) in the cloned blastocysts when compared with IVF. No differences in gene expression at this stage between cloned and IVF embryos were found for EOMES, NANOG and FGF4. At elongation EOMES, NANOG and FGF4 were upregulated in IVF embryos (p < 0.05). IFN-tau and OCT4 were expressed at similar levels. There were changes in the expression levels for all transcripts between blastogenesis and elongation. NANOG, IFN-tau and EOMES were overexpressed in all the elongated embryos (p < 0.05), FGF4 was underexpressed in both treatments. OCT4 dropped drastically in the cloned elongated embryos, but not in the IVF. Interestingly only adult donor cells (but not fetal) from which the cloned embryos originated also expressed high levels of OCT4. Our findings might help to understand the shift of gene expression during elongation and to identify key markers of embryonic development useful for embryo screening purposes.
在牛中,胚胎在着床前和孵化后会伸长。在此转变过程中基因表达的变化尚未得到充分研究。由于辅助生殖生物技术,如克隆和体外受精(IVF),多能性相关基因表达的变化尤为重要。我们假设,与第7天的囊胚相比,伸长胚胎中关键多能性相关基因的表达会下降,而干扰素-tau的表达会增加。为了验证这一点,我们生成了克隆和IVF牛第7天的囊胚和第17天的伸长胚胎(第0天=核移植或IVF的日期)。通过RT-qPCR评估所有胚胎中的基因表达。与IVF相比,克隆囊胚中OCT4过表达(p<0.05)。在EOMES、NANOG和FGF4方面,克隆胚胎和IVF胚胎在这个阶段的基因表达没有差异。在伸长阶段,IVF胚胎中EOMES、NANOG和FGF4上调(p<0.05)。干扰素-tau和OCT4表达水平相似。在胚泡形成和伸长之间,所有转录本的表达水平都有变化。NANOG、干扰素-tau和EOMES在所有伸长胚胎中过表达(p<0.05),FGF4在两种处理中均低表达。OCT4在克隆的伸长胚胎中急剧下降,但在IVF胚胎中没有。有趣的是,只有克隆胚胎所源自的成年供体细胞(而非胎儿细胞)也表达高水平的OCT4。我们的研究结果可能有助于理解伸长过程中基因表达的变化,并识别对胚胎筛选有用的胚胎发育关键标志物。
