Interactions between the oocyte and surrounding somatic cells in follicular development: lessons from in vitro culture

Mammalian oogenesis occurs concomitantly with folliculogenesis in a coordinated manner in the ovaries. In vitro growth (IVG) culture systems of the oocytes have been developed as a new technology for utilizing incompetent oocytes in the ovary as a source of mature oocytes as well as for studying oogenesis, folliculogenesis, and oocyte-somatic cell interactions. The results of IVG experiments have suggested that direct association of oocytes and surrounding granulosa cells supports oocyte viability and growth through the gap junctions, which are efficient conduits for low molecular weight substances. It has been revealed that granulosa cells metabolize some molecules which are in turn transported into the oocytes. IVG systems have also provided evidence that FSH promotes the development of follicles at secondary or later stages by its stimulation of proliferation and differentiation of granulosa cells, and perhaps by its anti-apoptotic effects. In addition, interactions between granulosa cell-derived KIT ligands and oocyte KIT receptors have been suggested as initiating oocyte growth and follicular development. Furthermore, recent findings suggest there are growth factors derived from oocytes such as GDF-9 and BMP-15. With such factors, oocytes participate in follicular development by regulating the differentiation of surrounding somatic cells. These bidirectional communications between oocytes and somatic cells are important for oocyte growth and follicular development. IVG systems should provide further information regarding oogenesis and folliculogenesis in the ovary.     

哺乳动物原始卵泡形成与发育的研究进展

在大多数雌性哺乳动物中,早期原始卵泡的形成主要包括3个过程：原始生殖细胞的迁移、生殖细胞减数分裂和生殖细胞巢破裂。原始卵泡形成与发育过程涉及到诸多因子和信号通路的调节作用,且原始卵泡库的大小及储备能力将决定雌性动物终生生殖能力。本文就参与原始卵泡形成和发育过程中的因子和信号通路作一综述,旨在深入了解参与原始卵泡形成与发育的细胞和分子机制,为维持原始卵泡库及促进原始卵泡激活提供研究思路。     

GDF9/BMP15对卵泡发育的调控

卵母细胞及其紧密连接的卵泡细胞之间的精细调节,促使卵母细胞成熟、受精和胚胎发育.在卵泡发育过程中,除了下丘脑-垂体-性腺轴间的内分泌调节外,卵母细胞源旁分泌或自分泌因子维持发育卵泡内微环境稳态,调节卵母细胞成熟和颗粒细胞增殖.目前发现,这些关键的调控因子主要是TGFβ超家族成员中的生长分化因子-9 （GDF9）和骨形态发生蛋白（BMP15）.GDF9/BMP15主要表达于卵母细胞,是卵泡发育必需的细胞因子.论文综述了GDF9/BMP15的结构特点、表达特性、信号通路及其在卵巢中的生物学作用等研究进展.     

In vitro Follicle Growth: Achievements in Mammalian Species

The exact mechanisms regulating in vivo folliculogenesis in mammalians have only been partly unravelled. Some processes, such as the initiation of growth of primordial follicles are still poorly understood. This increases the difficulty to culture follicles in vitro as the primordial follicles will be the ultimate starting material for culture.
There are important species differences in regulation and timing of maturation, which makes it difficult to transpose techniques.
Only in the mouse model, live pups were born when primordial or early preantral follicles were cultured entirely in vitro . Although no systems are as yet permitting complete in vitro culture of early follicle stages in large animals or humans, parts of folliculogenesis have been successfully reproduced in vitro . This review summarizes achievements of the last years in follicle culturing starting off at several stages of development.
Future applications of in vitro follicle culture include fertility preservation for humans, preservation of rare animal species and creation of oocyte banks for research.     

一氧化氮与哺乳动物卵泡发育

一氧化氮作为一种分子物质参与哺乳动物生殖活动,参与卵泡发育周期的各个阶段,如原始卵泡、腔前卵泡、有腔卵泡,排卵和黄体阶段。文章主要围绕卵泡发育的各个阶段,一氧化氮合成酶在卵泡中不同细胞中的定位,一氧化氮与卵母细胞的成熟、排卵及卵泡闭锁方面进行综述。     

连接蛋白Cx43和Cx37在卵泡发育中的作用

卵泡中的颗粒细胞通过间隙连接彼此交流,也与卵母细胞相互联系.连接蛋白是组成间隙连接的基本结构单位,其中Cx43和Cx37是卵泡发育所必需的.Cx43介导的间隙连接偶联通道对于胚胎生殖嵴的发育和出生后的卵泡发生都是必不可少的.Cx37除了对卵母细胞和颗粒细胞之间的交流发挥作用外,还能在紧邻卵母细胞的颗粒细胞之间形成交流通道,缺失Cx37会影响到有腔卵泡的发育,并且卵母细胞不能发育至成熟,故Cx43和Cx37对卵泡发育至关重要.     

Oocyte Morphology from Primordial to Early Tertiary Follicles of Yak

The objective of this study was to investigate the developmental morphology of yak oocytes from the primordial follicle to the tertiary follicle. Yak oocytes from resting primordial (n = 6), activated primordial (n = 12), primary (n = 9), secondary (n = 7) and early tertiary (n = 5) follicles were processed and analysed by light and transmission electron microscopy. The resting primordial follicular oocyte was characterized by relatively smooth surface on the oolemma, the accumulation of free and organelle‐related smooth (SER) and rough endoplasmic reticulum (RER), round or oval mitochondria, and polyribosomes on the surface of the RER and throughout the ooplasm. The activated primordial follicular oocyte was dominated by numerous coated pits and coated vesicles on the oolemma, and round mitochondria. Up to the secondary follicular stage the oocyte displayed an increase in the number of microvilli, polyribosome, Golgi complexes and mitochondria with distinct cristae. During the secondary follicular stage, formation of the zona pellucida, development of a desmosome‐like connection between the oocyte and the granulosa cells, formation of the cortical granules in the oocyte and elongated mitochondria in nearly all oocytes were seen. In the early tertiary follicular oocyte, the perivitelline space was present and a decrease in free SER and RER in the ooplasm occurred; finally, the nucleus migrated from an eccentric to a peripheral location. In conclusion, the growth of the yak oocyte is associated with the relocation and modulation of a number of cytoplasmic organelles as well as the development of oocyte‐specific structures such as the zona pellucida, desmosome‐like connection and cortical granules.     

Quantification,Morphology and Ultrastructure of Preantral Follicles of Buffalo (Bubalus bubalis) Foetuses

The objective of this study was to determine the number, morphology and ultrastructure of preantral ovarian follicles of buffalo (Bubalus bubalis) foetuses at different ages. Quantification revealed number of primordial, primary and secondary follicles of 48 857 ± 17 506, 26 000 ± 20 452, 18 428 ± 10 875 and 18 375 ± 19 690, 225 ± 349, 326 ± 288 at 12–34 cm and 35–60 cm crown rump length (CRL), respectively. Follicular diameter values were 28.9 (±3.4), 34.7 (±5.9) and 59.4 (±12.6) μm; oocyte diameters were 21.7 (±2.8), 24.3 (±3.4) and 33.0 (±7.7) μm, and the numbers of follicular cells in the follicle equatorial section were 7.1 (±1.4), 12.0 (±2.4) and 13.8 (±2.4) for primordial, primary and secondary follicles, respectively. The primordial follicle consisted of an oocyte surrounded by a layer of flattened follicular cells with a normally eccentric oocyte nucleus. Dispersed Golgi complex, smooth endoplasmic reticulum, rounded mitochondria and several lipid vesicles were observed in the cytoplasm and cell junctions between the follicle cell membranes and the oocyte. This work describes the number, morphometry and ultrastructure of preantral follicles of buffalo foetuses, concluding that folliculogenesis is established between 8 and 34 cm CRL and that follicle number varies individually and according to age and that further studies are needed in this species.     

Expression of Connexin 43 in the Porcine Foetal Gonads During Development

This study was designed to reveal connexin 43 (Cx43) mRNA and protein expression in porcine foetal gonads using RT‐PCR, immunohistochemistry and Western blot analysis. Expression of Cx43 was investigated in porcine foetal ovaries and testes on days 50, 70 and 90 post coitum (p.c.). RT‐PCR results indicated that Cx43 mRNA was expressed in both foetal ovaries and testes at all gestational ages examined. Cx43 protein was found in the foetal ovary but its distribution varied across ovarian compartments and changed during development. In foetal ovaries, Cx43 was localized between the interstitial cells surrounding egg nests on all investigated days of prenatal period. Moreover, Cx43 expression was observed between germ cells on day 50 p.c. as well as between pre‐granulosa and granulosa cells of primordial and primary follicles on days 70 and 90 p.c. In the foetal testes, Cx43 protein was detected between neighbouring Leydig cells on all examined days of prenatal period and between adjacent Sertoli cells exclusively on day 90 p.c. The presence of Cx43 protein in all investigated foetal gonads was confirmed by Western blot analysis. Cx43 protein detection between pre‐granulosa cells of primordial follicles suggests its role in regulation of the initial stages of follicle development. The Cx43 immunoexpression between neighbouring Leydig and between Sertoli cells indicates its involvement in controlling their functions. We propose that Cx43‐mediated gap junctional communication is involved in the regulation of porcine foetal gonadal development.     

细胞自噬对动物卵泡发育调控的研究进展

卵泡是雌性哺乳动物发挥其繁殖能力的基础,其发育是一个动态的过程,主要涉及原始卵泡的形成、卵泡的募集、优势卵泡的选择、成熟卵泡的排卵以及排卵后卵泡的黄体化。卵泡发育的整个过程受内分泌系统、细胞自噬、细胞凋亡等的调控。自噬是一种进化上保守的应激反应过程,通过将细胞内物质包裹形成自噬体并传递到溶酶体中进行降解,以帮助细胞维持胞内物质代谢平衡,其在卵泡发育的过程中发挥着重要作用,一方面它能够通过降解或回收受损的蛋白质或有害代谢产物缓解应激造成的卵泡损伤,另一方面它又通过产生大量自噬体导致细胞器过度降解而引起卵泡闭锁。自噬对卵泡发育的调控需要PI3K-Akt-mTOR、MAPK-ULK1、ERK1/2、Sirt1-FOXO1-Atg7等多种经典信号通路的参与,这些信号通路在激素、氧化应激、细胞饥饿等的刺激下,通过独立作用或相互作用促进或抑制自噬调控卵泡细胞的生理活动。目前已知不同的自噬水平对卵泡细胞的存活具有不同作用,但关于决定细胞能否存活的自噬水平的研究还比较少。此外,自噬对卵泡发育调控的研究主要集中在颗粒细胞中,而对卵母细胞的成熟和卵泡膜细胞的作用的报道较少。文章简述了自噬在卵巢储备的形成、...     

Comparative Expression Analysis of Gametogenesis‐Associated Genes in Foetal and Adult Bubaline (Bubalus bubalis) Ovaries and Testes

This study was conducted to identify and analyse the expression of gametogenesis‐associated genes and proteins in foetal and adult buffalo gonads of both the sexes. Relative quantification of the genes was determined by qPCR and Western blotting. Immunohistochemistry was also performed for various gametogenesis‐associated proteins in foetal and adult gonads of both the sexes. We observed significantly (p < 0.05) increased expression of primordial germ cell‐specific, meiotic as well as genes associated with oocyte maturation and development in foetal ovaries as compared to the adult ones. However, significantly (p < 0.05) increased expression of proteins associated with oocyte maturation like GDF9 and ZP4 was found in adult ovaries, indicating temporal regulation of mRNA translation during oogenesis. Meiotic genes showed significantly (p < 0.05) increased expression in adult testes as compared to foetal testes and ovaries, indicating onset of meiosis at a later stage in spermatogenesis. In general, the expression of primordial germ cell‐associated as well as meiotic genes was higher in adult testes, indicating the increased biological activity in the organ. Immunohistochemistry revealed localized expression of gametogenesis‐associated proteins in ovarian follicles and seminiferous tubules of testes, while the surrounding somatic tissues were devoid of these proteins. The study gives an understanding of the sequential and temporal events of gene expression as well as mRNA translation during male and female gametogenesis. It could also be concluded that follicles and seminiferous tubules are the functional units of the female and male gonads, respectively, and their function could be enhanced by appropriate chemical and genetic intervention of the somatic tissue immediately surrounding them. This assumes importance in the context that buffalo attains sexual maturity at an older age of 2–3 years and have smaller ovaries with lesser number of primordial follicles in comparison with cattle, which is suggested to be the main reason of their poor breeding performance.     

Improvement of 2D-PAGE resolution of human, porcine and canine follicular fluid: comparison of two immunodepletion columns

Follicular fluid provides the microenvironment within which somatic cells proliferate and differentiate, and the oocyte matures. It contains a number of soluble factors implicated in various stages of follicular development, most of them being functionally unknown. The presence of several high‐abundance proteins, mainly originating from the blood circulation, is a major challenge of follicular fluid proteomic analysis, as these proteins can mask or decrease the visualization of follicle‐specific proteins. In this study, we evaluated the efficiency of two immunodepletion columns (ProteomeLab™ IgY‐HSA and MARS‐6) on follicular fluids of human, porcine and canine prior to 2D‐PAGE. Our results showed that both columns were suitable to remove some of the high‐abundance proteins present in human and canine follicular fluid. In conclusion, we demonstrated that the immunodepletion strategy enables the detection of new protein spots, increases resolution and highly improves the intensity of low‐abundance proteins by 2D‐PAGE.     

Folliculogenesis and Morphometry of Oocyte and Follicle Growth in the Feline Ovary

This study was designed to describe, both quantitatively (morphometry) and qualitatively (histological differentiation), follicle and oocyte growth in the feline ovary. The ovaries of 43 cats were collected and processed for histology. The diameters of 832 follicle/oocyte pairs were measured, with and without zona pellucida (ZP), and a special emphasis was placed on the study of early folliculogenesis. Primordial, primary, secondary, pre-antral and early antral follicles were measured at 44.3, 86.2, 126.0, 155.6 and 223.8 μm in diameter respectively. A biphasic pattern of follicle and oocyte growth was observed. Before antrum formation, follicle ( x ) and oocyte ( y ) size were positively and linearly correlated ( y  = 0.500 x  + 20.01, r ² = 0.89). Antrum formation occurred when the follicle reached 160–200 μm in diameter (when oocyte was at 102 μm). After antrum formation, a decoupling was observed, a minimal increase in oocyte size contrasting with a significant follicle development ( y  = 0.001 x  + 114.39, r ² = 0.01). The pre-ovulatory follicle diameter was approximately 3500 μm and the maximal oocyte diameter was 115 μm. The ZP, absent in primordial and primary follicles, appeared at the secondary stage and reached almost 6 μm at the pre-ovulatory stage. These results suggest that (i) in feline ovary, follicle and oocyte growth pattern is similar to that observed in other mammals; (ii) the antrum forms in 160–200 μm follicles, which represents 5% of the pre-ovulatory diameter and (iii) the oocyte had achieved more than 90% of its maximal growth at the stage of antrum formation.     

颗粒细胞对卵泡发育的影响

卵泡发育是一个复杂的生理过程,通过间隙连接,颗粒细胞在卵母细胞的生长发育过程中起营养作用,并促进卵母细胞的成熟;颗粒细胞和膜细胞的相互作用是卵泡发育和维持正常功能的重要条件。作为卵泡发育的标志,颗粒细胞的生长分化是原始卵泡启动和生长的关键,并通过受体介导途径调控生长期卵泡的发育及卵泡闭锁,从而在卵泡发育过程中起重要的调控作用。     

A morphological and immunohistochemical study of healthy and atretic follicles in the ovary of the sexually immature ostrich (Struthio camelus)

The morphology of healthy and atretic follicles in the ovary of the sexually immature ostrich was described in the present study. In addition, the distribution of the intermediate filaments desmin, vimentin and smooth muscle actin, in these ovarian follicles, was demonstrated. Healthy and atretic primordial, pre-vitellogenic and vitellogenic follicles were present in the ovaries of the sexually immature ostrich. Atresia occurred during all stages of follicular development. Atretic primordial and pre-vitellogenic follicles were characterized by the presence of a shrunken oocyte surrounded by a multilayered granulosa cell layer. Two forms of atresia (types 1 and 2) were identified in vitellogenic follicles. In the advanced stages of type 1 atresia the follicle was dominated by a hyalinized mass. In contrast, in type 2 atresia the granulosa and theca interna cells differentiated into interstitial gland cells. Positive immunostaining for desmin was observed in the granulosa cells of only healthy primordial and pre-vitellogenic follicles. Atretic primordial and pre-vitellogenic follicles were immunonegative for desmin. Vimentin immunoreactivity was demonstrated in the granulosa cells of all follicles except the vitellogenic atretic follicles. The results of the present study indicate that ovarian follicles in the sexually immature ostrich undergo a cycle of growth and regression, which is similar to that reported in other avian species. Furthermore, based on the results of the immunohistochemical study, it would appear that the distribution and immunostaining of intermediate filaments changes during follicular development and atresia.     

Monitoring follicular development in cattle by real-time ultrasonography: a review.

The application of real-time ultrasonography to monitoring ovarian function in mammals has advanced the understanding of follicular dynamics and its regulation. Follicular development is a wave-like sequence of organised events. The waves consist of the synchronous growth of small (4 to 5 mm) antral follicles, followed by the selection and growth of one dominant follicle which achieves the largest diameter and suppresses the growth of the subordinate follicles. In the absence of luteal regression, the dominant follicle eventually regresses (becomes atretic) and a new follicular wave begins. The dominant follicle regulates the growth of the subordinate follicles, because the appearance of the next wave is accelerated if the dominant follicle is ablated, and delayed if the lifespan of the dominant follicle is prolonged. During bovine oestrous cycles, two or three successive waves emerge, on average, on the day of ovulation (day 0) and day 10 for two-wave cycles, and on days 0, 9 and 16 for three-wave cycles. During the oestrous cycle there are thus two or three successive dominant follicles, and the last of these ovulates. Ovarian folliculogenesis is a complex process involving interactions between pituitary gonadotrophins, ovarian steroids and non-steroidal factors. Subtle changes in the hormonal milieu regulate folliculogenesis and the emergence of a follicular wave is preceded by a small increase in the concentration of plasma follicle-stimulating hormone. The mechanisms that promote the selection of a dominant follicle have not been elucidated, but considerable progress has been made in understanding follicular development and its regulation. Most treatments designed to control the development of follicular waves have been based on the physical or hormonal removal of the suppressive effect of the dominant follicle, and the consequent controlled induction of the emergence of a new follicular wave. The studies reviewed here describe current methods for regulating the bovine ovarian cycle, interesting models for future studies, and information that may be used for improving reproductive efficiency.     

Role of oocyte‐derived paracrine factors in follicular development

Mammalian oocytes secrete transforming growth factor β (TGF‐β) superfamily proteins, such as growth differentiation factor 9 (GDF9), bone morphogenetic protein 6 (BMP6) and BMP15, and fibroblast growth factors (FGFs). These oocyte‐derived paracrine factors (ODPFs) play essential roles in regulating the differentiation and function of somatic granulosa cells as well as the development of ovarian follicles. In addition to the importance of individual ODPFs, emerging evidence suggests that the interaction of ODPF signals with other intra‐follicular signals, such as estrogen, is critical for folliculogenesis. In this review, we will discuss the current understanding of the role of ODPFs in follicular development with an emphasis on their interaction with estrogen signaling in regulation of the differentiation and function of granulosa cells.     

雌激素对哺乳动物卵泡发育的影响研究进展

雌激素在卵泡发育过程中所起的作用,已经得到人们的普遍认可。雌二醇(E2)及其类似物在卵泡的体细胞的增殖和分化中起重要作用,但其作用机理目前还不完全清楚。一些最新研究结果雌激素受体β(ERβ)的发现、雌激素受体基因敲除以及雌激素缺失动物模型的建立等,使我们能够进一步探讨雌激素在卵泡发育过程中的作用机理。结合这些最新研究动态,探讨雌激素在卵泡发育过程中的作用及雌激素对卵巢內的体细胞表型分化的影响。     

Effects of luteinizing hormone treatment on oogenesis in ovarian germ cells of the chick (Gallus domesticus)

The effect of the luteinizing hormone (LH) on the oogenesis of ovaries from newly-hatched chicks treated in vivo on days 13, 15, and 17 of embryonic development was analyzed. Changes in oogonial proliferation, meiotic prophase, degeneration of germ cells, and primordial follicular organization were determined. Results indicate that the total number of germ cells was not affected by the LH treatment, but significant differences existed in the number of oogonia and oocytes between the ovaries of control and LH-treated chicks. LH treatment increased the percentage of oocytes and diminished the percentage of oogonia. The mitotic activity of oogonia and degeneration of germ cells decreased, but the number of follicles during development increased in LH-treated ovaries. These findings suggest that LH treatment might trigger a cascade of endocrine events, resulting in inhibition of oogonial proliferation and induction of the meiotic prophase and follicle formation.