Molecular analysis of the effects of steroid hormones on mouse meiotic prophase I progression.

IF 2.2 2区社会学 Q1 LAW California Law Review Pub Date : 2019-12-02 DOI:10.1186/s12958-019-0548-x

Deion M Burks, Margaret R McCoy, Sudipta Dutta, Connie J Mark-Kappeler, Patricia B Hoyer, Melissa E Pepling

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Abstract

Background: Infertility is linked to depletion of the primordial follicle pool consisting of individual oocytes arrested at the diplotene stage of meiotic prophase I surrounded by granulosa cells. Primordial germ cells, the oocyte precursors, begin to differentiate during embryonic development. These cells migrate to the genital ridge and begin mitotic divisions, remaining connected, through incomplete cytokinesis, in clusters of synchronously dividing oogonia known as germ cell cysts. Subsequently, they enter meiosis, become oocytes and progress through prophase I to the diplotene stage. The cysts break apart, allowing individual oocytes to be surrounded by a layer of granulosa cells, forming primordial follicles each containing a diplotene arrested oocyte. A large number of oocytes are lost coincident with cyst breakdown, and may be important for quality control of primordial follicle formation. Exposure of developing ovaries to exogenous hormones can disrupt cyst breakdown and follicle formation, but it is unclear if hormones affect progression of oocytes through prophase I of meiosis.

Methods: Fetal ovaries were treated in organ culture with estradiol, progesterone, or both hormones, labeled for MSY2 or Synaptonemal complex protein 3 (SYCP3) using whole mount immunocytochemistry and examined by confocal microscopy. Meiotic prophase I progression was also followed using the meiotic surface spread technique.

Results: MSY2 expression in oocytes was reduced by progesterone but not estradiol or the hormone combination. However, while MSY2 expression was upregulated during development it was not a precise marker for the diplotene stage. We also followed meiotic prophase I progression using antibodies against SYCP3 using two different methods, and found that the percent of oocytes at the pachytene stage peaked at postnatal day 1. Finally, estradiol and progesterone treatment together but not either alone in organ culture increased the percent of oocytes at the pachytene stage.

Conclusions: We set out to examine the effects of hormones on prophase I progression and found that while MSY2 expression was reduced by progesterone, MSY2 was not a precise diplotene stage marker. Using antibodies against SYCP3 to identify pachytene stage oocytes we found that progesterone and estradiol together delayed progression of oocytes through prophase I.

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类固醇激素对小鼠减数分裂前期 I 进展影响的分子分析

背景：不孕症与原始卵泡池的耗竭有关，原始卵泡池由单个卵母细胞组成，这些卵母细胞被颗粒细胞包围，停滞在减数分裂第一阶段的二分裂期。原始生殖细胞是卵母细胞的前体，在胚胎发育过程中开始分化。这些细胞迁移到生殖脊，开始有丝分裂，通过不完全的细胞分裂，保持连接，形成同步分裂的卵原细胞簇，称为生殖细胞囊肿。随后，它们进入减数分裂，成为卵母细胞，并通过前期 I 进入二分裂阶段。囊肿破裂后，单个卵母细胞被一层颗粒细胞包围，形成原始卵泡，每个卵泡都含有一个停滞在二分裂期的卵母细胞。大量卵母细胞在囊肿破裂时丢失，这可能是原始卵泡形成质量控制的重要因素。将发育中的卵巢暴露于外源性激素可破坏囊肿破裂和卵泡形成，但激素是否会影响卵母细胞减数分裂前期 I 的进展尚不清楚：方法：用雌二醇、黄体酮或两种激素处理器官培养中的胎儿卵巢，用整装免疫细胞化学法标记MSY2或突触素复合蛋白3（SYCP3），并用共聚焦显微镜观察。此外，还使用减数分裂表面扩增技术跟踪减数分裂前期 I 的进展：结果：黄体酮会降低卵母细胞中 MSY2 的表达，但雌二醇或激素组合不会。然而，虽然 MSY2 的表达在发育过程中上调，但它并不是二分裂期的精确标记。我们还使用了两种不同的方法，使用针对SYCP3的抗体来跟踪减数分裂前期I的进展，结果发现处于青春期的卵母细胞百分比在出生后第1天达到峰值。最后，在器官培养中，雌二醇和黄体酮同时处理（而不是单独处理）会增加处于青春期的卵母细胞百分比：我们研究了激素对I期进展的影响，发现虽然黄体酮会降低MSY2的表达，但MSY2并不是一个精确的二分裂期标志物。我们发现，黄体酮和雌二醇共同延迟了卵母细胞I期的进展。

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来源期刊

California Law Review LAW-

CiteScore

2.70

自引率

8.30%

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期刊介绍： This review essay considers the state of hybrid democracy in California through an examination of three worthy books: Daniel Weintraub, Party of One: Arnold Schwarzenegger and the Rise of the Independent Voter; Center for Governmental Studies, Democracy by Initiative: Shaping California"s Fourth Branch of Government (Second Edition), and Mark Baldassare and Cheryl Katz, The Coming of Age of Direct Democracy: California"s Recall and Beyond. The essay concludes that despite the hoopla about Governor Schwarzenegger as a "party of one" and a new age of "hybrid democracy" in California.

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