反刍动物胎盘中基因功能的评估。

R V Anthony, J D Cantlon, K C Gates, S H Purcell, C M Clay
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引用次数: 0

摘要

胎盘提供了从母体向胎儿传递营养物质、从胎儿向母体传递废物、保护胎儿免受母体免疫系统影响的手段,是一种活跃的内分泌器官。虽然许多胎盘功能已经被定义和研究,但评估胎盘表达的特定基因的功能一直存在问题,因为传统的消融替代方法对胎盘不可行。长期以来,妊娠羊一直是评估妊娠期间体内生理的动物模型,因为在未麻醉、无应激的稳态取样条件下,将留置导管置入母体和胎儿血管中,可以评估胎盘营养物质的转移和利用,以及胎盘激素的分泌。然而,在反刍动物中,缺乏特征良好的滋养细胞系和在反刍动物中创造转基因妊娠的效率低下抑制了我们评估特定基因功能的能力。最近,绵羊和牛的原代滋养细胞细胞系被报道,这可能进一步我们研究滋养细胞功能和胎盘表达基因的转录调控。此外,病毒感染孵化囊胚的滋养外胚层,作为胎盘特异性转基因的一种手段,具有相当大的潜力来评估反刍动物胎盘的基因功能。这种方法已经成功地用于“敲低”发育中的绵羊胚胎中的基因表达,并且也有可能用于功能获得实验。虽然这项技术仍在发展中,但它可能为评估反刍动物胎盘中特定基因的功能提供一种有效的方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Assessing gene function in the ruminant placenta.

The placenta provides the means for nutrient transfer from the mother to the fetus, waste transfer from the fetus to the mother, protection of the fetus from the maternal immune system, and is an active endocrine organ. While many placental functions have been defined and investigated, assessing the function of specific genes expressed by the placenta has been problematic, since classical ablation-replacement methods are not feasible with the placenta. The pregnant sheep has been a long-standing animal model for assessing in vivo physiology during pregnancy, since surgical placement of indwelling catheters into both maternal and fetal vasculature has allowed the assessment of placental nutrient transfer and utilization, as well as placental hormone secretion, under unanesthetized-unstressed steady state sampling conditions. However, in ruminants the lack of well-characterized trophoblast cell lines and the inefficiency of creating transgenic pregnancies in ruminants have inhibited our ability to assess specific gene function. Recently, sheep and cattle primary trophoblast cell lines have been reported, and may further our ability to investigate trophoblast function and transcriptional regulation of genes expressed by the placenta. Furthermore, viral infection of the trophoectoderm layer of hatched blastocysts, as a means for placenta-specific transgenesis, holds considerable potential to assess gene function in the ruminant placenta. This approach has been used successfully to "knockdown" gene expression in the developing sheep conceptus, and has the potential for gain-of-function experiments as well. While this technology is still being developed, it may provide an efficient approach to assess specific gene function in the ruminant placenta.

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