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。     

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、...     

Expression Pattern of Vascular Endothelial Growth Factor in Canine Folliculogenesis and its Effect on the Growth and Development of Follicles after Ovarian Organ Culture

In this study, the expressions of VEGF in dog follicles were detected by immunohistochemistry and the effects of VEGF treatment on the primordial to primary follicle transition and on subsequent follicle progression were examined using a dog ovary organ culture system. The frozen‐thawed canine ovarian follicles within slices of ovarian cortical tissue were cultured for 7 and 14 days in presence or absence of VEGF. After culture, the ovaries were fixed, sectioned, stained and counted for morphologic analysis. The results showed that VEGF was expressed in the theca cells of antral follicles and in the granulosa cells nearest the oocyte in preantral follicle but not in granulosa cells of primordial and primary follicles; however, the VEGF protein was expressed in CL. After in vitro culture, VEGF caused a decrease in the number of primordial follicles and concomitant increase in the number of primary follicles that showed growth initiation and reached the secondary and preantral stages of development after 7 and 14 days. Follicular viability was also improved in the presence of VEGF after 7 and 14 days in culture. In conclusion, treatment with VEGF was found to promote the activation of primordial follicle development that could provide an alternative approach to stimulate early follicle development in dogs.     

Regulation of primordial follicle formation,dormancy, and activation in mice

In female reproduction, the oocyte number is limited after birth. To achieve a continuous ovulatory cycle, oocytes are stored in primordial follicles. Therefore, the regulation of primordial follicle dormancy and activation is important for reproductive sustainability, and its collapse leads to premature ovarian insufficiency. In this review, we summarize primordial follicle development and the molecular mechanisms underlying primordial follicle maintenance and activation in mice. We also overview the mechanisms discovered through in vitro culture of functional oocytes, including the establishment of primordial follicle induction by environmental factors, which revealed the importance of hypoxia and compression by the extra cellular matrix (ECM) for primordial follicle maintenance in vivo.     

Irreversible damage in ovine ovarian tissue after cryopreservation in propanediol: analyses after in vitro culture and xenotransplantation

Current progress in cancer treatment has increased the incidence of long-term patient survival. Ovarian tissue cryopreservation (OT) is still the most promising fertility saving method offered to young female patients with cancer prior to the onset of radio-chemotherapy. Further follicular development of immature primordial follicles depends on transplantation or in vitro culture (IVC). Aim of this study was to evaluate the appropriateness of cryopreserved ovine OT with 1,2-propanediol (PROH) after short-term IVC and xenotransplantation (XT). Ovarian tissue fragments from young adult sheep were cryopreserved using a standard slow-freezing protocol with 1.5 M PROH. Cryopreserved OT was assessed by light- and transmission electron microscopic analyses after thawing, IVC or XT in severe immunodeficient mice. Control OT showed the presence of healthy preantral follicles (Mean: 78.8%; SE 2.9%) and normal structure of the stromal tissue. After thawing and IVC over 80% of damaged primordial follicles and poor preservation of the stromal tissue was observed. After XT, OT demonstrated deficient follicles and huge areas of vacuolization in the stromal tissue confirmed by ultrastructural assessment. In conclusion, because of the irreversible character of the follicular and stromal damage of cryopreserved ovine ovarian tissue after IVC and XT, strong improvement of the utilized protocol is needed to be suitable for the preservation of ovine ovarian tissue. The deleterious effects of PROH do not imply its exclusion as cryoprotectant, but more research is needed for the development of less toxic cryoprotectant mixtures and toxicity neutralizers with attested cryoprotectant capacity for the safe and feasible freezing of human ovarian tissue.     

The effect of bpV(HOpic) on in vitro activation of primordial follicles in cultured swine ovarian cortical strips

The vanadate‐derivative dipotassium bisperoxo (5‐hydroxy‐pyridine‐2‐carboxylic) oxovanadate (V) (bpV(HOpic)), a pharmacological inhibitor of phosphatase and tensin homolog (PTEN), has been used in ovarian follicle culture systems for activation of follicular growth in vitro and suggested to be responsible for primordial follicle survival through indirect Akt activation. For pig ovarian tissue, it is still not clear which culture medium needs to be used, as well as which factors and hormones could influence follicular development; this also applies to bpV(HOpic) exposure. Therefore, ovarian cortical strips from pigs were cultured in 1 µM bpV(HOpic) (N = 24) or control medium (N = 24) for 48 hr. Media were then replaced with control medium and all tissue pieces incubated for additional 4 days. The strips were embedded in paraffin for histological determination of follicle proportions at the end of the culture period and compared to histological sections from tissue pieces without cultivation, which had been embedded right after preparation; comparison of healthy follicles for each developmental stage was performed to quantify follicle survival and activation. After 6‐day culture, follicle activation occurred in tissue samples from both cultured groups but significantly more follicles showed progression of follicular development in the presence of 1 µM bpV(HOpic). The amount of non‐vital follicles was not significantly increased during cultivation. BpV(HOpic) affects pig ovarian follicle development by promoting the initiation of follicle growth and development, similar as in rodent species and humans.     

Activation of goat primordial follicles in vitro: Influence of alginate and ovarian tissue

The present study aimed to evaluate the effect of three culture systems on caprine primordial follicle activation in vitro: follicles cultured either in the isolated form within alginate (Isolated follicles + Alginate treatment), or enclosed in ovarian tissue (in situ), with or without alginate (Fragment + Alginate, and Fragment alone treatments, respectively). After culture, the Isolated follicles + Alginate treatment presented a percentage of morphologically normal follicles (MNF) similar to both the non-cultured control and the Fragment Alone treatments. Nevertheless, Fragment + Alginate treatment showed a significant reduction in the number of MNF when compared to the other treatments. Regarding follicle development, our results showed that regardless of the alginate, the presence of ovarian tissue limited primordial follicle activation during in vitro culture. Remarkably, the Isolated primordial follicle + Alginate treatment was the only one that significantly promoted follicle activation and increased both follicle and oocyte diameters during IVFC, pointing out a higher cell proliferation. In conclusion, the presence of ovarian tissue with or without alginate limited follicle development (activation) after culture. Nevertheless, when primordial follicles were isolated and encapsulated in alginate they presented suitable survival rates, higher rates of follicle activation and continued to grow throughout the culture period.     

Effect of growth differentiation factor‐9 (GDF‐9) on the progression of buffalo follicles in vitrified–warmed ovarian tissues

To improve the reproductive performance of water buffalo to level can satisfy our needs, the mechanisms controlling ovarian follicular growth and development should be thoroughly investigated. Therefore, in this study, the expressions of growth differentiation factor‐9 (GDF‐9) in buffalo ovaries were examined by immunohistochemistry, and the effects of GDF‐9 treatment on follicle progression were investigated using a buffalo ovary organ culture system. Frozen–thawed buffalo ovarian follicles within slices of ovarian cortical tissue were cultured for 14 days in the presence or absence of GDF‐9. After culture, ovarian slices were fixed, sectioned and stained. The follicles were morphologically analysed and counted. Expression pattern of GDF‐9 was detected in oocytes from primordial follicles onwards, besides, also presented in granulosa cells. Moreover, GDF‐9 was detected in mural granulosa cells and theca cells of pre‐antral follicles. In antral follicles, cumulus cells and theca cells displayed positive expression of GDF‐9. In corpora lutea, GDF‐9 was expressed in both granulosa and theca lutein cells. After in vitro culture, there was no difference in the number of primordial follicles between cultured plus GDF‐9 and cultured control that indicated the GDF‐9 treatment has no effect on the primordial to primary follicle transition. GDF‐9 treatment caused a significant decrease in the number of primary and secondary follicles compared with controls accompanied with a significant increase in pre‐antral and antral follicles. These results suggest that a larger number of primary and secondary follicles were stimulated to progress to later developmental stages when treated with GDF‐9. Vitrification/warming of buffalo ovarian tissue had a little remarkable effect, in contrast to culturing for 14 days, on the expression of GDF‐9. In conclusion, treatment with GDF‐9 was found to promote progression of primary follicle that could provide an alternative approach to stimulate early follicle development and to improve therapies for the most common infertility problem in buffaloes (ovarian inactivity).     

休情期银黑狐卵巢形态和卵泡发育的显微结构观察

研究休情期银黑狐卵巢形态和卵泡的显微结构,以揭示银黑狐卵巢发育的一般规律。本试验于2012年12月份采集5只健康一岁龄银黑狐卵巢10枚,用游标卡尺测量其长、宽、厚,用电子天平测量其重量,并对其表面可见卵泡数量进行统计,然后利用光学显微镜对各级卵泡分别观察1~3个,共计原始卵泡30个,初级卵泡20个,次级卵泡15个,三级卵泡12个,成熟卵泡10个,并进行拍照。结果表明:随银黑狐卵巢体积不断增大,其中80%的卵巢重量也随之增大;可见卵泡数量与卵巢体积及重量没有相关性;卵巢由被膜、皮质和髓质构成,髓质位于卵巢内层,分布着较多血管,皮质位于卵巢外层,内有不同发育阶段的卵泡;原始卵泡由卵母细胞和颗粒细胞构成,初级卵泡开始出现透明带物质,到次级卵泡阶段发育完整,三级卵泡出现卵泡腔,卵泡及卵母细胞直径在有腔卵泡阶段比腔前卵泡阶段增长速度快,成熟卵泡的直径及透明带厚度达到最大,各级卵泡均有闭锁现象。     

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.     

哺乳动物原始卵泡体外培养与激活调控研究进展

随着体外受精、克隆与转基因动物等基础研究快速发展,对卵母细胞的需求越来越多,科学家们不得不寻求能够获得大量优质卵母细胞的新途径。原始卵泡作为生长卵泡的来源,其初始容量影响哺乳动物的繁殖性能,是整个雌性生殖期中各阶段卵泡及卵子发育的源头。哺乳动物的卵巢在出生时由一定数量的卵泡组成,大多数原始卵泡处于休眠状态,只有极少数的原始卵泡被激活并进入生长卵泡池中。因此合理开发卵巢里尚未激活的原始卵泡对提高动物繁殖率、加速优良牛种的遗传改良、阐明动物卵泡发生的分子机理具有重要意义。本文将目前哺乳动物原始卵泡体外激活的国内外进展做一综述,为研究动物和人类卵泡激活的生物学过程提供理论基础。     

miRNA调节卵泡颗粒细胞凋亡及其机制的研究进展

微小核糖核酸(microRNA,miRNA)是一类内源性非编码RNA,具有广泛的基因表达调控作用,可以在转录后水平通过影响靶基因来调控相应蛋白质的表达,进而调节细胞的生命活动。miRNA在哺乳动物卵泡颗粒细胞中表达,并调控颗粒细胞的凋亡。颗粒细胞作为卵巢卵泡中数量最多的细胞群,在卵泡发育过程中起着至关重要的作用,不仅为卵母细胞提供营养物质,还调控其发育和成熟。颗粒细胞凋亡是导致卵泡闭锁的重要原因,影响卵泡的数量和质量从而影响雌性动物的繁殖性能。颗粒细胞凋亡过程受多种因素的调控。文章简述了miRNA对卵巢颗粒细胞凋亡的调控作用及其机制,其中包括miRNA通过调控激素分泌和细胞凋亡相关因子的表达进而调节颗粒细胞的凋亡,miRNA对颗粒细胞凋亡相关信号通路的影响,miRNA调控颗粒细胞凋亡导致的卵巢相关疾病,并总结了对颗粒细胞凋亡有调控作用的miRNA,以及miRNA在疾病诊断和治疗中的潜在作用,以期为后续相关卵巢疾病的发病机制和治疗方案研究,以及提高雌性哺乳动物生殖性能提供指导和参考。     

Ascorbic acid ameliorates dysregulated folliculogenesis induced by mono-(2-ethylhexyl)phthalate in neonatal mouse ovaries via reducing ovarian oxidative stress

Phthalates, including di-(2-ethylhexyl)phthalate (DEHP), are common industrial chemicals in the environment. Recent evidence indicates that DEHP and its active metabolite mono-(2-ethylhexyl)phthalate (MEHP) negatively modulate reproductive functions and induce reactive oxygen species. Ascorbic acid (AA) is a dietary requirement for primates, and it acts as a potent free radical scavenger to protect tissues against oxidative stress. In this study, to investigate the toxic effects of MEHP on the follicle development and the beneficial role of AA, neonatal mouse ovaries were treated with different concentrations of MEHP with or without AA for 6 days. Then, the follicle constitution and oxidative status were compared in different groups. Results showed MEHP accelerated primordial follicle recruitment by increasing the percentage of primary and secondary follicles and decreasing the percentage of primordial follicles in the ovaries. Moreover, MEHP-induced ovarian oxidative stress by significantly increasing malondialdehyde (MDA) concentration and the expression of GSS and SOD1. When ovaries were co-administrated with MEHP and AA, follicle constitution was normalized, and the oxidative status was significantly decreased. These results suggested that AA ameliorated MEHP-induced ovarian oxidative stress and follicular dysregulation, which attested the clinical significance of AA for ovary protection in the case of MEHP exposure.     

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.     

Nutritional influences on folliculogenesis

Folliculogenesis is an intricate process that involves the proliferation and differentiation of both somatic and germ cells. This process depends on complex interactions between systemic factors such as both pituitary gonadotrophins and metabolic hormones and/or local factors produced by the ovarian somatic and germ cells, such as the IGF system and TGF-β superfamily members. In domestic ruminants, follicular development begins during foetal life with formation of primordial follicles from the association of germ cells and pre-granulosa cells. After follicular formation, folliculogenesis begins with a primordial follicle progressing into more developed stages (i.e. primary, secondary, pre-antral and antral) in a continuous, progressive process to either ovulation or, as in most cases, to atresia. Even early stages of follicular formation and subsequent development are influenced by both internal (e.g. genotype) and/or external environmental (e.g. nutrition and season) factors. Among these external factors, nutrition is one of the most important affecting reproductive function, and this is the focus of this review, because other reviews in this issue discuss other environmental factors. A number of studies have now shown that nutrition can have both positive and negative effects on follicular growth, oestrous activity, oocyte quality, blastocyst development and pregnancy outcome. Therefore, understanding the intricate processes involved during folliculogenesis and the ways in which factors, such as nutrition, affect them is leading to new opportunities to improve pregnancy rates by influencing follicle development and oocyte quality. This review will focus on follicular development from foetal to adult stages and the influences that nutrition has during some of these developmental stages.     

水牛有腔卵泡颗粒细胞凋亡的生物形态学特征

为了解水牛有腔卵泡闭锁的起因和有腔卵泡中是否存在卵泡颗粒细胞凋亡，本研究选择青春期前水牛和成年（发情间期和发情期）水牛的卵巢，采用石蜡组织切片、HE染色技术进行光镜观察，并采用DNA原位末端标记（TUNEL）技术和透射电镜观察研究了卵泡颗粒细胞凋亡的特征。结果表明：青春期前水牛的健康有腔卵泡上无或仅有极个别凋亡的卵泡颗粒细胞（GCs），而闭锁有腔卵泡上存在有多量凋亡的GCs，凋亡的形式：GCs层内出现单个或多个凋亡细胞，卵泡腔内出现凋亡小体群。在成年水牛发情间期的闭锁大卵泡上，GCs层弯曲皱折，存在多量凋亡的GCs。发情期水牛成熟卵泡的GCs层也存在GCs凋亡，排卵前的GCs层细胞全部脱落到卵泡腔内。本研究首次在同一组织切片上先后分别应用HE染色和TUNEL检查细胞凋亡，且证实了水牛有腔卵泡GCs凋亡的存在。超微结构显示了GCs凋亡的核边集化、核浓缩及凋亡小体的形态。上述结果提示：在水牛闭锁有腔卵泡中存在着GCs凋亡，GCs凋亡是启动水牛有腔卵泡闭锁的潜在机理。     

小白鼠卵泡壁发育的形态学研究

选择性成熟的纯种小白鼠，用ＦＳＨ和ｈｃＧ处理，取其卵巢，制成光学切片，显微镜下观察卵泡壁发育的形态学变化过程。胚胎阶段发育而来的原始卵泡的扁平细胞钭发育为颗粒层细胞，颗粒细胞最初在单层上增殖细胞的数量；卵泡膜在初级卵泡在初期就开始形成，是由卵巢基质中的扁平样细胞发育而来；卵泡膜中的血管是由卵巢基质中血管伸入形成，在初级卵泡刚开始形成时就开始生长发育。     

Effect of Oxytocin,IBMX and dbcAMP on Rabbit Ovarian Follicles

Oxytocin (OT) and protein kinase A (PKA), a possible intracellular mediator of hormone action in the ovary, can be potent activators of ovarian functions and fertility. Nevertheless, action of OT on ovarian follicle atresia has not been studied yet. Only single administration of PKA activators [3‐isobutyl‐1‐methyl‐xanthine (IBMX) and dibutyryl cyclic adenosine monophosphate (dbcAMP)] on ovarian follicle atresia was studied previously. The aim of this study was to examine the effect of OT (single treatment per one reproductive cycle, multiple treatments for three cycles), IBMX and dbcAMP (multiple treatments) on folliculogenesis and follicular atresia in rabbit. The ovarian cycle in control females was induced only by gonadotropins. Experimental females received co‐administration of gonadotropins with OT, IBMX or dbcAMP (at 50 μg/female). All females were artificially inseminated. Single‐treated females were euthanized after 18–19 h. Multiple‐treated females were euthanized after the third reproductive cycle. Histological sections of the ovaries were prepared and evaluated by a light microscopy. The follicles were divided into four classes according to the structure of granulosa and theca cells as follows: none or small atresia, cystic atresia, obliterative atresia and atresia associated with luteinization. The ovaries from the control and experimental females, treated during one reproductive cycle or three cycles, were compared. Single OT co‐administration increased proportion of follicles with atresia associated with luteinization, but not other types of atresia. No influence of multiple OT co‐administration on follicular atresia was recorded. Multiple IBMX and dbcAMP co‐administration decreased the proportion of atretic follicles and increased the proportion of healthy follicles without atresia.     

Promotion of ovarian follicular development by injecting vascular endothelial growth factor (VEGF) and growth differentiation factor 9 (GDF-9) genes

Ovarian follicular development in mammals is the complex process including endocrine, paracrine and autocrine. There is the development of four basic stages of ovarian follicles, i.e. the primordial, primary, secondary and tertiary or Graafian follicles. There are few blood vessels in the cortical area where primordial and primary follicles are assembled. The development of these follicles is stimulated by oocytes derived factor including growth differentiation factor 9 (GDF-9) or bone morphogenetic protein 15 (BMP-15). Porcine GDF-9 complementary DNA (cDNA) cloned, and then injected its gene into the ovary in gilts. The injection of porcine GDF-9 gene resulted in an increase in the number of primary, secondary and tertiary follicles, concomitant with a decrease in the number of primordial follicles, indicating that exogenous GDF-9 can promote early folliculogenesis in the porcine ovary. On the other hand, the development of antral follicles is associated with increased density of blood vessels within the theca cell layers surrounding the follicles. A recent study reported that vascular endothelial growth factor (VEGF) play an important role in the process of thecal angiogenesis during follicular development. To investigate whether additional induction of thecal angiogenesis would support subsequent follicular development, miniature gilts were directly injected VEGF gene into the ovary. Injection of VEGF gene increased the levels of mRNA expression of VEGF 120 and VEGF 164 isoforms in the granulosa cells and VEGF protein contents in the follicular fluid. The number of preovulatory follicles and the capillary density in the theca interna increased significantly in the ovaries injected with VEGF gene compared with those treated with eCG alone, indicating that the regulation of thecal angiogenesis during follicular development is a very important factor in the development of ovulatory follicles. This technique may be an innovative technique for enhanced induction of follicular development in the ovary through gene and hormonal treatment, which may lead to prevention of infertility caused by ovarian dysfunction.