Selective Regulation of Oocyte Meiotic Events Enhances Progress in Fertility Preservation Methods.

Biochemistry Insights Pub Date : 2015-09-20 eCollection Date: 2015-01-01 DOI:10.4137/BCI.S28596
Onder Celik, Nilufer Celik, Sami Gungor, Esra Tustas Haberal, Suleyman Aydin
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引用次数: 25

Abstract

Following early embryonic germ cell migration, oocytes are surrounded by somatic cells and remain arrested at diplotene stage until luteinizing hormone (LH) surge. Strict regulation of both meiotic arrest and meiotic resumption during dormant stage are critical for future fertility. Inter-cellular signaling system between the somatic compartment and oocyte regulates these meiotic events and determines the follicle quality. As well as the collected number of eggs, their qualities are also important for in vitro fertilization (IVF) outcome. In spontaneous and IVF cycles, germinal vesicle (GV)-stage oocytes, premature GV breakdown, and persistence of first meiotic arrest limit the reproductive performance. Likewise, both women with premature ovarian aging and young cancer women are undergoing chemoradiotherapy under the risk of follicle loss because of unregulated meiotic events. Understanding of oocyte meiotic events is therefore critical for the prevention of functional ovarian reserve. High levels of cyclic guanosine monophophate (cGMP), cyclic adenosine monophophate (cAMP) and low phosphodiesterase (PDE) 3A enzyme activity inside the oocyte are responsible for maintaining of meiotic arrest before the LH surge. cGMP is produced in the somatic compartment, and natriuretic peptide precursor C (Nppc) and natriuretic peptide receptor 2 (Npr2) regulate its production. cGMP diffuses into the oocyte and reduces the PDE3A activity, which inhibits the conversion of cAMP to the 5'AMP, and cAMP levels are enhanced. In addition, oocyte itself has the ability to produce cAMP. Taken together, accumulation of cAMP inside the oocyte induces protein kinase activity, which leads to the inhibition of maturation-promoting factor and meiotic arrest also continues. By stimulating the expression of epidermal growth factor, LH inhibits the Nppc/Npr2 system, blocks cGMP synthesis, and initiates meiotic resumption. Oocytes lacking the functional of this pathway may lead to persistence of the GV oocyte, which reduces the number of good quality eggs. Selective regulation of somatic cell signals and oocyte meiotic events enhance progress in fertility preservation methods, which may give us the opportunity to prevent follicle loss in prematurely aging women and young women with cancer are undergoing chemoradiotherapy.

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卵母细胞减数分裂事件的选择性调控促进了生育保存方法的进展。
随着早期胚胎生殖细胞的迁移,卵母细胞被体细胞包围,并保持在二倍体期,直到黄体生成素(LH)激增。休眠期减数分裂停止和减数分裂恢复的严格调控对未来的生育至关重要。体细胞室和卵母细胞之间的细胞间信号系统调节这些减数分裂事件,并决定卵泡质量。除了收集到的卵子数量外,卵子的质量对体外受精(IVF)的结果也很重要。在自发和体外受精周期中,生发囊泡(GV)期卵母细胞、GV过早破裂和首次减数分裂停滞的持续限制了生殖性能。同样,卵巢早衰妇女和年轻的癌症妇女都在接受放化疗,由于减数分裂事件不受调节,有卵泡丢失的风险。因此,了解卵母细胞减数分裂事件对于预防卵巢功能储备至关重要。卵母细胞内高水平的环鸟苷单磷酸(cGMP)、环腺苷单磷酸(cAMP)和低水平的磷酸二酯酶(PDE) 3A酶活性是维持LH激增前减数分裂停滞的原因。cGMP在体细胞间室产生,由利钠肽前体C (Nppc)和利钠肽受体2 (Npr2)调控其产生。cGMP扩散进入卵母细胞,降低PDE3A活性,抑制cAMP向5'AMP的转化,cAMP水平升高。此外,卵母细胞本身也具有产生cAMP的能力。综上所述,卵母细胞内cAMP的积累诱导蛋白激酶活性,从而导致成熟促进因子的抑制和减数分裂停滞。LH通过刺激表皮生长因子的表达,抑制Nppc/Npr2系统,阻断cGMP合成,启动减数分裂恢复。卵母细胞缺乏这一途径的功能可能导致GV卵母细胞的持续存在,从而减少优质卵子的数量。体细胞信号和卵母细胞减数分裂事件的选择性调节促进了生育保存方法的进展,这可能为我们提供了预防过早衰老妇女和接受放化疗的年轻癌症妇女的卵泡丢失的机会。
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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Biochemistry Insights
Biochemistry Insights BIOCHEMISTRY & MOLECULAR BIOLOGY-
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