神经营养素-4 可促进人类次级卵泡的体外发育和成熟,使卵母细胞分裂期达到 II 期,并成功形成囊胚。

IF 8.3 Q1 OBSTETRICS & GYNECOLOGY Human reproduction open Pub Date : 2024-01-30 eCollection Date: 2024-01-01 DOI:10.1093/hropen/hoae005
Yingchun Guo, Lei Jia, Haitao Zeng, Peng Sun, Wenlong Su, Tingting Li, Xiaoyan Liang, Cong Fang
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引用次数: 0

摘要

研究问题补充神经营养因子 4(NT4)的无基质培养系统是否能改善人类体外卵泡的发育和减数分裂成熟,并最终产生可受精的卵母细胞?在体外培养中补充 NT4 能显著提高来自新鲜卵巢髓质(来自青春期后和青春期前患者)的人类次级卵泡的生长、类固醇激素分泌和成熟潜能,从而产生可受精的卵母细胞:在体外重建卵泡生成对于生育力保存、生殖生物学研究和生殖毒性评估至关重要。然而,体外培养系统的效率仍未达到最佳水平,因为人类卵泡体外生长(IVG)获得可受精卵细胞的目标仍未实现,尤其是青春期前少女卵泡的相关数据更是少之又少。我们以前曾发现,从 IVG 衍生的次级卵泡中获得的小鼠卵母细胞缺乏神经内分泌调节。在人类卵泡中发现了 NT4 及其相应的受体。值得注意的是,在IVG过程中添加NT4能显著提高小鼠卵泡的生长率和卵母细胞的成熟率:在卵巢组织冷冻保存(OTC)的组织制备过程中获得的新鲜髓质组织取自 10 名年龄在 6 至 21 岁之间的患者,他们都接受了单侧输卵管切除术,以此作为保留生育能力的一种手段。分离的次级卵泡在无基质系统中与或不与NT4单独进行体外培养:通过酶解和机械破坏从每位患者身上提取的次级卵泡被随机分配到对照组或NT4添加组(100 ng/ml),然后在超低附着力平板上进行单独培养。卵泡的生长和活力由显微镜进行评估。对培养基中抗苗勒氏管激素(AMH)、雌二醇和孕酮的水平进行量化。使用共聚焦荧光显微镜对 DEAD box 多肽 4(DDX4)染色后,确定了一种卵母细胞特异性标记物。用捐赠的精子样本进行体外受精和卵胞浆内单精子显微注射后,对单个卵母细胞的成熟和受精能力进行了评估:总体而言,两组分离卵泡的存活期均长达 6 周,且在存活期内直径不断增大(P P P P P 大规模数据):不适用:本研究的研究对象是所有确诊为重型地中海贫血的患者。该培养系统对其他疾病患者是否有效仍是未知数。由于所选的 NT4 剂量是根据小鼠的剂量发现确定的,因此在人类 IVG 系统中使用的最佳剂量需要进一步确认。本研究获得的卵母细胞和胚胎尚未进行倍性状态或表观遗传学特征的量化:研究结果的更广泛意义:在组织制备过程中获得的新鲜髓质组织可作为保存女性生育能力的珍贵可受精卵细胞来源,即使是青春期前的少女也不例外,而且不会造成肿瘤再次传入的威胁。在对该系统进行进一步表征和优化后,该培养系统有望成为未来研究的有力工具,用于全面探索人类卵泡发育机制和进行生殖毒性评估:本研究得到了国家重点研发计划(批准号:2022YFC2703000)和国家自然科学基金(批准号:82271651和81871214)的资助。本研究中用于人卵泡体外培养的培养基已申请中国国家发明专利(专利号:202211330660.7)。该专利的发明人依次为Y.G.、C.F.和 X.L.。
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Neurotrophin-4 promotes in vitro development and maturation of human secondary follicles yielding metaphase II oocytes and successful blastocyst formation.

Study question: Does a matrix-free culture system supplemented with neurotrophic factor 4 (NT4) improve human in vitro follicular development and meiotic maturation, ultimately resulting in fertilizable oocytes?

Summary answer: NT4 supplementation of in vitro culture significantly enhances the growth, steroid hormone production, and maturity potential of human secondary follicles derived from fresh ovarian medulla (from post- and pre-pubertal patients), thereby yielding fertilizable oocytes.

What is known already: Reconstituting folliculogenesis in vitro is of paramount importance in the realms of fertility preservation, reproductive biology research, and reproductive toxicity assessments. However, the efficiency of in vitro culture systems remains suboptimal, as the attainment of fertilizable oocytes from in vitro growth (IVG) of human follicles remains unachieved, with the data being particularly scant regarding follicles from prepubertal girls. We have previously found that mouse oocytes from secondary follicles derived from IVG are deficient in neuroendocrine regulation. NT4 and its corresponding receptor have been identified in human follicles. Significantly, the addition of NT4 during the IVG process markedly enhances both follicle growth and oocyte maturation rates in mice.

Study design size duration: Fresh medulla tissue obtained during tissue preparation for ovarian tissue cryopreservation (OTC) were collected from 10 patients aged from 6 to 21 years old, all of whom had undergone unilateral oophorectomy as a means of fertility preservation. Isolated secondary follicles were individually cultured in vitro with or without NT4 in a matrix-free system.

Participants/materials setting methods: Secondary follicles, extracted via enzymatic digestion and mechanical disruption from each patient, were randomly allocated to either a control group or an NT4-supplemented group (100 ng/ml), followed by individual culture on an ultra-low attachment plate. Follicle growth and viability were assessed by microscopy. Levels of anti-Müllerian hormone (AMH), estradiol, and progesterone in the medium were quantified. An oocyte-specific marker was identified using confocal fluorescence microscopy following DEAD box polypeptide 4 (DDX4) staining. The competence of individual oocytes for maturation and fertilization were assessed after IVM and ICSI with donated sperm samples.

Main results and the role of chance: Overall, isolated follicles from both groups survived up to 6 weeks with increasing diameters over the duration (P < 0.05), reaching terminal diameters of almost 1 mm with confirmed steroidogenesis and expression of oocyte marker (DDX4), and producing morphologically normal MII oocytes. When compared with the control group, the NT4 group had a similar initial follicular diameter (206 ± 61.3 vs 184 ± 93.4 μm) but exhibited a significant increase in follicular diameter from the ninth day of culture onwards (P < 0.05). From Week 3, estradiol and progesterone production were significantly increased in the NT4 group, while no significant difference was observed in AMH production between groups. The proportion of 'fast-growth' follicles in the NT4 group was significantly higher than that in the control group (13/23 vs 6/24, P < 0.05). An increased efficiency of MII oocyte maturation per live follicle in the NT4 group was also observed (control group vs NT4 group, 4/24 vs 10/23, P < 0.05). It is noteworthy that an MII oocyte obtained from the control group exhibited abnormal fertilization after ICSI. In contrast, an MII oocyte acquired from the NT4 group progressed to the blastocyst stage and showed potential for transfer.

Large scale data: N/A.

Limitations reasons for caution: The cohort examined in this study was all patients diagnosed with beta-thalassemia major. Whether this culture system is effective for patients with other diseases remains unknown. Since the chosen dose of NT4 was established based on dose finding in mice, the optimal dose for use in a human IVG system needs further confirmation. The oocytes and embryos procured from this study have not been quantified for ploidy status or epigenetic signatures.

Wider implications of the findings: Fresh medulla tissue obtained during tissue preparation for OTC may serve as a precious source of fertilizable oocytes for female fertility preservation, even for pre-pubertal girls, without the threat of tumour reintroduction. After further characterization and optimization of the system, this culture system holds the potential to provide a powerful future research tool, for the comprehensive exploration of human follicular development mechanisms and for conducting reproductive toxicity evaluations.

Study funding/competing interests: This work was supported by the National Key R&D Program of China (grant number 2022YFC2703000) and National Natural Science Foundation of China (grant numbers 82271651 and 81871214). The medium used in human follicle in vitro culture in this study has been applied for a national invention patent in China (No. 202211330660.7). The inventors of the patent, in order, are: Y.G., C.F., and X.L.

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