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首页> 外文期刊>Theriogenology >Transcriptomic analysis of interferon-gamma-regulated genes in endometrial explants and their possible role in regulating maternal endometrial immunity during the implantation period in pigs, a true epitheliochorial placentation species
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Transcriptomic analysis of interferon-gamma-regulated genes in endometrial explants and their possible role in regulating maternal endometrial immunity during the implantation period in pigs, a true epitheliochorial placentation species

机译:子宫内膜外科植体中干扰素 - γ-调节基因的转录组分析及其在猪植入期间调节母体子宫内膜免疫的可能作用,真正的上皮映射物种

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摘要

The implantation process requires precisely controlled interactions between the maternal uterine endometrium and the implanting conceptus. Conceptus-derived secretions affect endometrial cells to facilitate the adhesion and attachment of trophoblasts, and endometrial secretions support the growth and development of the conceptus. In pigs, the conceptus secretes a large amount of type II interferon, interferon-gamma (IFNG), during the implantation period. However, the role of IFNG in the implantation process has not been fully understood in pigs. Thus, to determine the role of IFNG in the endometrium during early pregnancy in pigs, we treated endometrial explant tissues with increasing doses of IFNG and analyzed the transcriptome regulated by IFNG using an RNA-sequencing analysis. Data analyses identified 276 differentially regulated genes, their Gene Ontology terms, and 94 signature genes in a Gene Set Enrichment Analysis. Furthermore, we analyzed the expression of IFNG-regulated genes, including CIITA, KYNU, IDO1, WARS, and MHC class II molecules, in the endometrium throughout pregnancy and found that levels of those genes in the endometrium were highest on Day 15 of pregnancy, corresponding to the time of peak IFNG secretion by porcine conceptuses. In addition, immunohistochemical analyses revealed that CIITA, KYNU, and IDO proteins were expressed in a cell type- and pregnancy status-specific manner in the endometrium. These results show that genes overrepresented in endometrial tissues in response to IFNG were mainly related to immune responses, suggesting that conceptus-derived IFNG could play critical roles in regulating the maternal immune response for the establishment of pregnancy in pigs. (C) 2020 Elsevier Inc. All rights reserved.
机译:植入过程需要精确控制母体子宫内膜和植入概念之间的相互作用。胚胎源性分泌物影响子宫内膜细胞,促进滋养层的粘附和附着,子宫内膜分泌物支持胚胎的生长和发育。在猪体内,胚胎在植入期间分泌大量II型干扰素,即干扰素-γ(IFNG)。然而,猪体内IFNG在植入过程中的作用尚未完全被了解。因此,为了确定IFNG在猪妊娠早期子宫内膜中的作用,我们用增加剂量的IFNG处理子宫内膜外植体组织,并使用RNA测序分析IFNG调节的转录组。在基因集富集分析中,数据分析确定了276个差异调节基因、它们的基因本体术语和94个特征基因。此外,我们分析了整个妊娠期间子宫内膜中IFNG调节基因的表达,包括CIITA、KYNU、IDO1、WARS和MHC II类分子,并发现这些基因在妊娠第15天子宫内膜中的水平最高,对应于猪胚胎分泌IFNG的峰值时间。此外,免疫组化分析显示,CIITA、KYNU和IDO蛋白在子宫内膜中以细胞类型和妊娠状态特异性的方式表达。这些结果表明,在子宫内膜组织中过度表达的IFNG应答基因主要与免疫应答有关,这表明胚胎来源的IFNG在调节母猪免疫应答以建立妊娠过程中发挥关键作用。(C) 2020爱思唯尔公司版权所有。

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  • 来源
    《Theriogenology》 |2020年第1期|共11页
  • 作者

    Yoo Inkyu; Kim Doyoung; Han Jisoo; Lee Soohyung; Hong Minsun; Jeon Bo-Young; Kim Jun-Mo; Ka Hakhyun;

  • 作者单位

    Yonsei Univ Div Biol Sci &

    Technol Wonju 26493 South Korea;

    Chung Ang Univ Coll Biotechnol &

    Nat Resources Dept Anim Sci &

    Technol Ansung 17546 South Korea;

    Yonsei Univ Div Biol Sci &

    Technol Wonju 26493 South Korea;

    Yonsei Univ Div Biol Sci &

    Technol Wonju 26493 South Korea;

    Yonsei Univ Div Biol Sci &

    Technol Wonju 26493 South Korea;

    Yonsei Univ Dept Biomed Lab Sci Wonju 26493 South Korea;

    Chung Ang Univ Coll Biotechnol &

    Nat Resources Dept Anim Sci &

    Technol Ansung 17546 South Korea;

    Yonsei Univ Div Biol Sci &

    Technol Wonju 26493 South Korea;

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  • 原文格式 PDF
  • 正文语种 eng
  • 中图分类 动物学;
  • 关键词

    Pig; Endometrium; Conceptus; IFNG; RNA-Seq; Immune response;

    机译:猪;子宫内膜;概念;IFNG;RNA-SEQ;免疫应答;

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