缺口信号在小鼠囊胚发育和孵化中的作用。

Q2 Biochemistry, Genetics and Molecular Biology BMC Developmental Biology Pub Date : 2020-06-02 DOI:10.1186/s12861-020-00216-2
Mariana R Batista, Patrícia Diniz, Ana Torres, Daniel Murta, Luís Lopes-da-Costa, Elisabete Silva
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引用次数: 7

摘要

背景:哺乳动物早期胚胎发育需要细胞信号通路的相互作用。Notch是决定胚胎和成人细胞命运的主要调控途径。然而,Notch在胚胎着床前发育中的作用仍存在争议。特别是,Notch在囊胚发育和孵化中的作用尚不清楚,Notch成分在这段时间内的转录和表达模式尚不完整。结果:本研究提供了对个体胚胎基因转录动态和Notch成分(受体Notch1-4;配体Dll1和Dll4, Jagged1-2;和效应物Hes1-2),以及它们与小鼠囊胚发育和孵化过程中多能性和分化基因标记(Sox2、Oct4、Klf4、Cdx2)转录的关系。Notch1-2、Jagged1-2和Hes1的转录在发育阶段具有高度的普遍性和动态性,而Notch3-4、Dll4和Hes2的转录在胚胎中具有较低的普遍性。Notch1、Notch2、Jagged2和Hes1的转录水平彼此相关,并与多能性和分化基因的转录水平相关。基因转录与蛋白质表达相关,除了Jagged2,所有胚胎的高转录水平都没有转化为蛋白质。通过核NICD和Hes1检测,以及DAPT阻断典型信号通路后Hes1转录下调,证实Notch信号活性的存在。体外培养中添加Jagged1对胚胎发育动力学无影响。相反,添加Jagged2可抑制Jagged1转录,下调Cdx2转录,抑制囊胚孵化。DAPT阻断Notch信号通路可下调Sox2转录,延缓胚胎孵化。结论:Notch基因的转录在囊胚发育和孵化过程中呈现动态模式。数据证实Notch信号活动,并提出Notch规范信号可能通过Notch1、Notch3、Jagged1和Hes1起作用。胚胎培养中添加Jagged1和Jagged2揭示了Jagged1、Cdx2对囊胚孵化的可能调控作用。总的来说,研究结果表明Notch信号的过度激活或过低激活都会影响囊胚的发育和孵化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Notch signaling in mouse blastocyst development and hatching.

Background: Mammalian early embryo development requires a well-orchestrated interplay of cell signaling pathways. Notch is a major regulatory pathway involved in cell-fate determination in embryonic and adult scenarios. However, the role of Notch in embryonic pre-implantation development is controversial. In particular, Notch role on blastocyst development and hatching remains elusive, and a complete picture of the transcription and expression patterns of Notch components during this time-period is not available.

Results: This study provided a comprehensive view on the dynamics of individual embryo gene transcription and protein expression patterns of Notch components (receptors Notch1-4; ligands Dll1 and Dll4, Jagged1-2; and effectors Hes1-2), and their relationship with transcription of gene markers of pluripotency and differentiation (Sox2, Oct4, Klf4, Cdx2) during mouse blastocyst development and hatching. Transcription of Notch1-2, Jagged1-2 and Hes1 was highly prevalent and dynamic along stages of development, whereas transcription of Notch3-4, Dll4 and Hes2 had a low prevalence among embryos. Transcription levels of Notch1, Notch2, Jagged2 and Hes1 correlated with each other and with those of pluripotency and differentiation genes. Gene transcription was associated to protein expression, except for Jagged2, where high transcription levels in all embryos were not translated into protein. Presence of Notch signaling activity was confirmed through nuclear NICD and Hes1 detection, and downregulation of Hes1 transcription following canonical signaling blockade with DAPT. In vitro embryo culture supplementation with Jagged1 had no effect on embryo developmental kinetics. In contrast, supplementation with Jagged2 abolished Jagged1 transcription, downregulated Cdx2 transcription and inhibited blastocyst hatching. Notch signaling blockade by DAPT downregulated transcription of Sox2, and retarded embryo hatching.

Conclusion: Transcription of Notch genes showed a dynamic pattern along blastocyst development and hatching. Data confirmed Notch signaling activity, and lead to the suggestion that Notch canonical signaling may be operating through Notch1, Notch3, Jagged1 and Hes1. Embryo culture supplementation with Jagged1 and Jagged2 unveiled a possible regulatory effect between Jagged1, Cdx2 and blastocyst hatching. Overall, results indicate that a deregulation in Notch signaling, either by its over or under-activation, affects blastocyst development and hatching.

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来源期刊
BMC Developmental Biology
BMC Developmental Biology 生物-发育生物学
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>12 weeks
期刊介绍: BMC Developmental Biology is an open access, peer-reviewed journal that considers articles on the development, growth, differentiation and regeneration of multicellular organisms, including molecular, cellular, tissue, organ and whole organism research.
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