Murine uterine gland branching is necessary for gland function in implantation.

IF 3.6 2区 医学 Q2 DEVELOPMENTAL BIOLOGY
Katrina Granger, Sarah Fitch, May Shen, Jarrett Lloyd, Aishwarya Bhurke, Jonathan Hancock, Xiaoqin Ye, Ripla Arora
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引用次数: 0

Abstract

Uterine glands are branched, tubular structures whose secretions are essential for pregnancy success. It is known that pre-implantation glandular expression of leukemia inhibitory factor (LIF) is crucial for embryo implantation; however, the contribution of uterine gland structure to gland secretions, such as LIF, is not known. Here, we use mice deficient in estrogen receptor 1 (ESR1) signaling to uncover the role of ESR1 signaling in gland branching and the role of a branched structure in LIF secretion and embryo implantation. We observed that deletion of ESR1 in neonatal uterine epithelium, stroma, and muscle using the progesterone receptor PgrCre causes a block in uterine gland development at the gland bud stage. Embryonic epithelial deletion of ESR1 using a Müllerian duct Cre line, Pax2Cre, displays gland bud elongation but a failure in gland branching. Reduction of ESR1 in adult uterine epithelium using the lactoferrin-Cre (LtfCre) displays normally branched uterine glands. Unbranched glands from Pax2Cre Esr1flox/flox uteri fail to express glandular pre-implantation Lif, preventing implantation chamber formation and embryo alignment along the uterine mesometrial-antimesometrial axis. In contrast, branched glands from LtfCre Esr1flox/flox uteri display reduced expression of ESR1 and glandular Lif resulting in delayed implantation chamber formation and embryo-uterine axes alignment but mice deliver a normal number of pups. Finally, pre-pubertal unbranched glands in control mice express Lif in the luminal epithelium but fail to express Lif in the glandular epithelium, even in the presence of estrogen. These data strongly suggest that branched glands are necessary for pre-implantation glandular Lif expression for implantation success. Our study is the first to identify a relationship between the branched structure and secretory function of uterine glands and provides a framework for understanding how uterine gland structure-function contributes to pregnancy success.

小鼠子宫腺体分支是植入过程中腺体功能的必要条件。
子宫腺体是分枝的管状结构,其分泌物对妊娠成功至关重要。已知胚胎着床前腺体表达的白血病抑制因子(LIF)对胚胎着床至关重要,但子宫腺体结构对腺体分泌物(如 LIF)的贡献尚不清楚。在这里,我们利用缺乏雌激素受体 1(ESR1)信号传导的小鼠来揭示 ESR1 信号传导在腺体分枝中的作用以及分枝结构在 LIF 分泌和胚胎着床中的作用。我们观察到,利用孕酮受体 PgrCre 在新生儿子宫上皮、基质和肌肉中缺失 ESR1 会导致子宫腺体在腺芽阶段发育受阻。使用穆勒氏管 Cre 系 Pax2Cre 在胚胎上皮细胞中删除 ESR1 后,会出现腺芽伸长,但腺体分枝失败。利用乳铁蛋白-Cre(LtfCre)减少成体子宫上皮中的 ESR1,可显示出正常的子宫腺体分枝。来自 Pax2Cre Esr1flox/flox 子宫的未分枝腺体不能表达腺体植入前 Lif,从而阻碍了植入室的形成和胚胎沿子宫中膜-子宫前膜轴的排列。相反,来自 LtfCre Esr1flox/floxuteri 的分支腺体的 ESR1 和腺体 Lif 表达减少,导致植入室形成和胚胎-子宫轴排列延迟,但小鼠产仔数正常。最后,对照组小鼠青春期前未分枝的腺体在管腔上皮中表达 Lif,但在腺上皮中却不能表达 Lif,即使在雌激素存在的情况下也是如此。这些数据有力地表明,分枝腺体是植入前腺体 Lif 表达的必要条件,有助于植入成功。我们的研究首次确定了子宫腺体的分枝结构与分泌功能之间的关系,并为了解子宫腺体结构-功能如何促进妊娠成功提供了一个框架。
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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来源期刊
Molecular human reproduction
Molecular human reproduction 生物-发育生物学
CiteScore
8.30
自引率
0.00%
发文量
37
审稿时长
6-12 weeks
期刊介绍: MHR publishes original research reports, commentaries and reviews on topics in the basic science of reproduction, including: reproductive tract physiology and pathology; gonad function and gametogenesis; fertilization; embryo development; implantation; and pregnancy and parturition. Irrespective of the study subject, research papers should have a mechanistic aspect.
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