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Dosage effects of ZP2 and ZP3 heterozygous mutations cause human infertility

机译:ZP2和ZP3杂合突变的剂量效应导致人不孕症

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摘要

The zona pellucida (ZP) is an extracellular matrix universally surrounding mammalian eggs, which is essential for oogenesis, fertilization, and pre-implantation embryo development. Here, we identified two novel heritable mutations of ZP2 and ZP3, both occurring in an infertile female patient with ZP-abnormal eggs. Mouse models with the same mutations were generated by CRISPR/Cas9 gene editing system, and oocytes obtained from female mice with either single heterozygous mutation showed approximately half of the normal ZP thickness compared to wild-type oocytes. Importantly, oocytes with both heterozygous mutations showed a much thinner or even missing ZP that could not avoid polyspermy fertilization, following the patient's pedigree. Further analysis confirmed that precursor proteins produced from either mutated ZP2 or ZP3 could not anchor to oocyte membranes. From these, we conclude that ZP mutations have dosage effects which can cause female infertility in humans. Finally, this patient was treated by intracytoplasmic sperm injection (ICSI) with an improved culture system and successfully delivered a healthy baby.
机译:Zona Pellucida(ZP)是一种普遍围绕哺乳动物蛋的细胞外基质,对于胚芽作用,施肥和植入预胚胎发育至关重要。在这里,我们确定了ZP2和ZP3的两种新颖的遗传突变,两者都在ZP-Importal卵中发生在不育的女性患者中。通过CRISPR / CAS9基因编辑系统产生具有相同突变的小鼠模型,与具有单一杂合突变的雌性小鼠获得的卵母细胞显示与野生型卵母细胞相比的正常ZP厚度的大约一半。重要的是,杂合物突变的卵母细胞显示出患者的血统后无法避免多患者施肥的更薄或甚至缺失的ZP。进一步的分析证实,由突变的ZP2或ZP3产生的前体蛋白不能锚定卵母膜。从这些中,我们得出结论,ZP突变具有剂量效应,可导致人类的雌性不孕症。最后,通过具有改进的培养系统,通过血小杂药精子注射(ICSI)治疗该患者,并成功地递送了健康的婴儿。

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  • 来源
    《Human Genetics》 |2017年第8期|共11页
  • 作者

    Liu Wenqiang; Li Kunming; Bai Dandan; Yin Jiqing; Tang Yuanyuan; Chi Fengli; Zhang Linfeng; Wang Yu; Pan Jiaping; Liang Shanshan; Guo Yi; Ruan Jingling; Kou Xiaochen; Zhao Yanhong; Wang Hong; Chen Jiayu; Teng Xiaoming; Gao Shaorong;

  • 作者单位

    Tongji Univ Clin &

    Translat Res Ctr Shanghai Matern &

    Infant Hosp 1 Shanghai Key Lab Signaling &

    Tongji Univ Clin &

    Translat Res Ctr Shanghai Matern &

    Infant Hosp 1 Shanghai Key Lab Signaling &

    Tongji Univ Clin &

    Translat Res Ctr Shanghai Matern &

    Infant Hosp 1 Shanghai Key Lab Signaling &

    Tongji Univ Clin &

    Translat Res Ctr Shanghai Matern &

    Infant Hosp 1 Shanghai Key Lab Signaling &

    Tongji Univ Clin &

    Translat Res Ctr Shanghai Matern &

    Infant Hosp 1 Shanghai Key Lab Signaling &

    Tongji Univ Clin &

    Translat Res Ctr Shanghai Matern &

    Infant Hosp 1 Shanghai Key Lab Signaling &

    Tongji Univ Clin &

    Translat Res Ctr Shanghai Matern &

    Infant Hosp 1 Shanghai Key Lab Signaling &

    Tongji Univ Clin &

    Translat Res Ctr Shanghai Matern &

    Infant Hosp 1 Shanghai Key Lab Signaling &

    Tongji Univ Clin &

    Translat Res Ctr Shanghai Matern &

    Infant Hosp 1 Shanghai Key Lab Signaling &

    Tongji Univ Clin &

    Translat Res Ctr Shanghai Matern &

    Infant Hosp 1 Shanghai Key Lab Signaling &

    Tongji Univ Clin &

    Translat Res Ctr Shanghai Matern &

    Infant Hosp 1 Shanghai Key Lab Signaling &

    Tongji Univ Clin &

    Translat Res Ctr Shanghai Matern &

    Infant Hosp 1 Shanghai Key Lab Signaling &

    Tongji Univ Clin &

    Translat Res Ctr Shanghai Matern &

    Infant Hosp 1 Shanghai Key Lab Signaling &

    Tongji Univ Clin &

    Translat Res Ctr Shanghai Matern &

    Infant Hosp 1 Shanghai Key Lab Signaling &

    Tongji Univ Clin &

    Translat Res Ctr Shanghai Matern &

    Infant Hosp 1 Shanghai Key Lab Signaling &

    Tongji Univ Clin &

    Translat Res Ctr Shanghai Matern &

    Infant Hosp 1 Shanghai Key Lab Signaling &

    Tongji Univ Clin &

    Translat Res Ctr Shanghai Matern &

    Infant Hosp 1 Shanghai Key Lab Signaling &

    Tongji Univ Clin &

    Translat Res Ctr Shanghai Matern &

    Infant Hosp 1 Shanghai Key Lab Signaling &

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  • 中图分类 医学遗传学;
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