Cellular and molecular events in early and mid gestation porcine implantation sites: a review.

B. Croy, J. M. Wessels, N. Linton, M. J. van den Heuvel, A. Edwards, C. Tayade
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引用次数: 18

Abstract

Commercial, North American pork breeds (Sus scrofa) experience significant loss of genetically-normal conceptuses during the peri-implantation (attachment) period and at mid-gestation (day 50 to 90 of the 114 day porcine gestation interval). Although exact causes for these losses are not defined, asynchronous in-utero development and deficits in vascularization of the endometrium and placenta appear to be involved. Understanding of normal maternal-fetal dialogue is critical to develop breeding or therapeutic strategies that improve fetal health and overall litter size in commercial pigs. The non-invasive, epitheliochorial porcine placenta permits investigation of maternal or fetal compartments without cross contaminating cells. We developed and use protocols to capture single, homogenous populations of porcine cells (endometrial lymphocytes, dendritic or endothelial cells) from histological sections using laser capture microdissection (LCM), a powerful tool for study of gene expression that reflects the in vivo environment. These data are compared with gene expression in biopsies of endometrium and of trophoblast from the same, attachment sites. Here we review justifications for selection of the genes we have studied and our published and in progress work. These data provide new insights into the roles of the endometrial immune environment in the regulation of the success and failure of porcine conceptuses.
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妊娠早期和中期猪植入部位的细胞和分子事件:综述。
商业化的北美猪肉品种(Sus-scrofa)在胚胎植入期(附着期)和妊娠中期(114天猪妊娠间隔的第50至90天)经历了遗传正常受孕的显著损失。尽管这些损失的确切原因尚不明确,但子宫内发育不同步以及子宫内膜和胎盘血管化缺陷似乎也与此有关。了解正常的母胎对话对于制定改善商品猪胎儿健康和总产仔数的育种或治疗策略至关重要。非侵入性上皮层猪胎盘允许在没有交叉污染细胞的情况下对母体或胎儿隔室进行研究。我们开发并使用方案,使用激光捕获显微切割(LCM)从组织学切片中捕获单一、同质的猪细胞群(子宫内膜淋巴细胞、树突状细胞或内皮细胞),这是一种研究反映体内环境的基因表达的强大工具。将这些数据与来自相同附着部位的子宫内膜和滋养层活检中的基因表达进行比较。在这里,我们回顾了我们研究的基因选择的理由,以及我们已经发表和正在进行的工作。这些数据为子宫内膜免疫环境在猪妊娠成败调控中的作用提供了新的见解。
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Development of the pig placenta. Conceptus-uterus interactions in pigs: endometrial gene expression in response to estrogens and interferons from conceptuses. Temporal candidate gene expression patterns in the sow placenta during early gestation and the effect of maternal L-arginine supplementation. Genetic selection for lifetime reproductive performance. Global protein profiling of porcine cumulus cells in response to native oocyte secreted factors in vitro.
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