人类卵巢排卵过程的新发现

IF 14.8 1区 医学 Q1 OBSTETRICS & GYNECOLOGY Human Reproduction Update Pub Date : 2024-09-27 DOI:10.1093/humupd/dmae027
Misung Jo, Mats Brännström, James W Akins, Thomas E Curry
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引用次数: 0

摘要

背景 成功排卵对自然受孕和生育至关重要。排卵过程中的缺陷与妇女的各种不孕或不育症有关。然而,与我们对动物模型的了解相比,我们对妇女排卵过程的卵巢内生化机制的了解还比较落后。这在很大程度上是由于人类卵巢样本有限,无法用于研究女性整个排卵期的变化并确定潜在的细胞/分子机制。尽管存在这一挑战,但我们仍取得了稳步进展,通过以下方法增进了对女性排卵过程的了解:(i)收集整个试管婴儿间隔期的颗粒细胞;(ii)创造一种新方法,收集正常周期妇女围排卵期的卵泡细胞和组织;(iii)开发独特的体外模型,以研究 LH 激增或 hCG 给药诱导的排卵期基因表达变化、排卵变化的调控机制以及排卵因子的特定功能。目的和依据 本综述旨在总结利用人体排卵的体内和体外模型得出的研究结果,目的是为女性排卵过程的内在机制提供新的见解。搜索方法 本综述基于作者自己的研究,并使用 PubMed 搜索关键词 "人类排卵表皮生长因子信号"、"人类排卵类固醇生成"、"人类排卵转录因子"、"人类排卵前列腺素"、"人类排卵蛋白酶"、"人类排卵血管生成"、"人类排卵趋化因子"、"人类排卵障碍"、"人类颗粒细胞培养 "对迄今为止有关人类排卵的相关文献进行了搜索。我们的方法包括将作者的研究数据与现有的微阵列或 RNA-seq 数据集进行比较,这些数据集是利用从人类、猴子和小鼠身上获取的整个排卵期的卵巢细胞生成的。目前使用体内和体外模型进行的研究结果表明,LH 激增或 hCG 给药会增加排卵介质的表达,包括类 EGF 因子、类固醇、转录因子、前列腺素、蛋白水解系统以及其他自分泌和旁分泌因子,这与在啮齿动物、反刍动物和猴子等其他动物模型中观察到的情况类似。然而,不同物种诱导的特定排卵因子、其表达模式及其调控机制各不相同。这些物种特异性差异强调了利用人类样本来描述女性排卵过程内在机制的必要性。更广泛的影响 人类体内和体外排卵模型的数据开始填补我们对女性排卵过程认识的空白。我们需要进一步努力发现新的排卵因素。填补这些空白的方法之一是改进现有的体外模型,使其更接近于人体体内的排卵条件。这一点至关重要,因为从这些人体研究中获得的知识可直接用于帮助诊断与排卵相关的病理状况,开发更有效的治疗方法以帮助无排卵性不孕症妇女,或者反过来更好地管理排卵以达到避孕目的。注册编号 n/a。
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New insights into the ovulatory process in the human ovary
BACKGROUND Successful ovulation is essential for natural conception and fertility. Defects in the ovulatory process are associated with various conditions of infertility or subfertility in women. However, our understanding of the intra-ovarian biochemical mechanisms underlying this process in women has lagged compared to our understanding of animal models. This has been largely due to the limited availability of human ovarian samples that can be used to examine changes across the ovulatory period and delineate the underlying cellular/molecular mechanisms in women. Despite this challenge, steady progress has been made to improve our knowledge of the ovulatory process in women by: (i) collecting granulosa cells across the IVF interval, (ii) creating a novel approach to collecting follicular cells and tissues across the periovulatory period from normally cycling women, and (iii) developing unique in vitro models to examine the LH surge or hCG administration-induced ovulatory changes in gene expression, the regulatory mechanisms underlying the ovulatory changes, and the specific functions of the ovulatory factors. OBJECTIVE AND RATIONALE The objective of this review is to summarize findings generated using in vivo and in vitro models of human ovulation, with the goal of providing new insights into the mechanisms underlying the ovulatory process in women. SEARCH METHODS This review is based on the authors’ own studies and a search of the relevant literature on human ovulation to date using PubMed search terms such as ‘human ovulation EGF-signaling’, ‘human ovulation steroidogenesis’, ‘human ovulation transcription factor’, ‘human ovulation prostaglandin’, ‘human ovulation proteinase’, ‘human ovulation angiogenesis’ ‘human ovulation chemokine’, ‘human ovulatory disorder’, ‘human granulosa cell culture’. Our approach includes comparing the data from the authors’ studies with the existing microarray or RNA-seq datasets generated using ovarian cells obtained throughout the ovulatory period from humans, monkeys, and mice. OUTCOMES Current findings from studies using in vivo and in vitro models demonstrate that the LH surge or hCG administration increases the expression of ovulatory mediators, including EGF-like factors, steroids, transcription factors, prostaglandins, proteolytic systems, and other autocrine and paracrine factors, similar to those observed in other animal models such as rodents, ruminants, and monkeys. However, the specific ovulatory factors induced, their expression pattern, and their regulatory mechanisms vary among different species. These species-specific differences stress the necessity of utilizing human samples to delineate the mechanisms underlying the ovulatory process in women. WIDER IMPLICATIONS The data from human ovulation in vivo and in vitro models have begun to fill the gaps in our understanding of the ovulatory process in women. Further efforts are needed to discover novel ovulatory factors. One approach to address these gaps is to improve existing in vitro models to more closely mimic in vivo ovulatory conditions in humans. This is critically important as the knowledge obtained from these human studies can be translated directly to aid in the diagnosis of ovulation-associated pathological conditions, for the development of more effective treatment to help women with anovulatory infertility or, conversely, to better manage ovulation for contraceptive purposes. REGISTRATION NUMBER N/A.
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来源期刊
Human Reproduction Update
Human Reproduction Update 医学-妇产科学
CiteScore
28.80
自引率
1.50%
发文量
38
期刊介绍: Human Reproduction Update is the leading journal in its field, boasting a Journal Impact FactorTM of 13.3 and ranked first in Obstetrics & Gynecology and Reproductive Biology (Source: Journal Citation ReportsTM from Clarivate, 2023). It specializes in publishing comprehensive and systematic review articles covering various aspects of human reproductive physiology and medicine. The journal prioritizes basic, transitional, and clinical topics related to reproduction, encompassing areas such as andrology, embryology, infertility, gynaecology, pregnancy, reproductive endocrinology, reproductive epidemiology, reproductive genetics, reproductive immunology, and reproductive oncology. Human Reproduction Update is published on behalf of the European Society of Human Reproduction and Embryology (ESHRE), maintaining the highest scientific and editorial standards.
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