Mammalian oocyte growth and development in vitro

This paper is a review of the current status of technology for mammalian oocyte growth and development in vitro. It compares and contrasts the characteristics of the various culture systems that have been devised for the culture of either isolated preantral follicles or the oocyte-granulosa cell complexes from preantral follicles. The advantages and disadvantages of these various systems are discussed. Endpoints for the evaluation of oocyte development in vitro, including oocyte maturation and embryogenesis, are described. Considerations for the improvement of the culture systems are also presented. These include discussions of the possible effects of apoptosis and inappropriate differentiation of oocyte-associated granulosa cells on oocyte development. Finally, the potential applications of the technology for oocyte growth and development in vitro are discussed. For example, studies of oocyte development in vitro could help to identify specific molecules produced during oocyte development that are essential for normal early embryogenesis and perhaps recognize defects leading to infertility or abnormalities in embryonic development. Moreover, the culture systems may provide the methods necessary to enlarge the populations of valuable agricultural, pharmaceutical product-producing, and endangered animals, and to rescue the oocytes of women about to undergo clinical procedures that place oocytes at risk. © 1996 Wiley-Liss, Inc.     

Preimplantation embryonic development of spontaneous mouse parthenotes after oocyte meiotic maturation in vitro

Of eggs ovulated in LT/Sv mice, 10–20% undergo spontaneous parthenogenetic activation, and 40–50% of the parthenotes develop to blastocysts when cultured in simple defined medium from the one-cell stage. Similar percentages of oocytes isolated from Graafian follicles undergo parthenogenetic activation after spontaneous maturation in simple defined medium, but embryonic development proceeds no further than the two-cell stage. The simple defined medium that supported preimplantation development of ovulated eggs and spontaneous maturation of extrafollicular oocytes contained no serum, free amino acids, or vitamins. The present experiments were conducted to determine what conditions during spontaneous maturation of extrafollicular oocytes could promote the ability of oocytes to develop to blastocysts after parthenogenetic activation and mimic the environment of preovulatory follicles. Cumulus-enclosed oocytes that were matured in simple medium supplemented with fetal bovine serum (FBS) developed to blastocysts after spontaneous parthenogenetic activation. Furthermore, minimum essential medium (MEM), a complex medium containing free amino acids and vitamins, could substitute completely for FBS for maturing oocytes from (C57BL/6J × LT/Sv)F₁ mice, and to a lesser extent for maturing LT/Sv oocytes. Therefore, even though germinal vesicle breakdown in mouse oocytes and preimplantation development of mouse eggs can occur in the absence of an exogenous supply of free amino acids and vitamins, a complete, or normal, mouse oocyte maturation cannot. These results also demonstrated that gonadotropins are not necessary during oocyte meiotic maturation for parthenogenetically activated eggs to develop through the preimplantation stages. Luteinizing hormone or 17β-estradiol in MEM during oocyte maturation had no effect on the subsequent development of parthenotes. In contrast, follicle stimulating hormone (FSH) and progesterone in the maturation medium decreased the number of ova that subsequently cleaved, and FSH decreased the number of cleaved eggs that developed to blastocysts.     

Aspects of the reproductive biology of the bass, Dicentrarchus labrax L. II. Fecundity and pattern of oocyte development

The European bass, Dicentrarchus labrax L., in common with most temperate marine teleosts, exhibits a distinct seasonal reproductive cycle. Its reproductive strategy is characterized by a high absolute fecundity (2-25 × 10⁵), both absolute and relative fecundity increasing with size and age. The cyclic pattern of oocyte development has been determined by histology and from oocyte size frequency analysis. Results show that the bass exhibits group-synchronous oocyte development and is a 'fractional spawner', i.e. it spawns a number (3–4) of discrete clutches in quick succession, successive clutches containing fewer oocytes. All oocytes which are recruited into the secondary growth phase (> 110 μrn) are either spawned that season or become atretic, i.e. no secondary oocytes are held over for the subsequent reproductive season.     

Evolution of sex-biased maternal effects in birds: II. Contrasting sex-specific oocyte clustering in native and recently established populations

In species that produce broods of multiple offspring, parents need to partition resources among simultaneously growing neonates that often differ in growth requirements. In birds, multiple ovarian follicles develop inside the female at the same time, resulting in a trade-off of resources among them and potentially limiting maternal ability for sex-specific allocation. We compared resource acquisition among oocytes in relation to their future sex and ovulation order in two populations of house finches with contrasting sex-biased maternal strategies. In a native Arizona population, where mothers do not bias offspring sex in relation to ovulation order, the male and female oocytes did not show sex-specific trade-offs of resources during growth and there was no evidence for spatial or temporal segregation of male and female oocytes in the ovary. In contrast, in a recently established Montana population where mothers strongly bias offspring sex in relation to ovulation order, we found evidence for both intra-sexual trade-offs among male and female oocytes and sex-specific clustering of oocytes in the ovary. We discuss the importance of sex-specific resource competition among offspring for the evolution of sex-ratio adjustment and sex-specific maternal resource allocation.     

Polarization of mitochondria in the unfertilized mouse oocyte

Maturation of an immature oocyte into one capable of being fertilized involves tightly choreographed movements of chromosomes and organelles. The localizaton of mitochondria during maturation was studied in live mouse oocytes by confocal laser scanning microscopy (CLSM). Mitochondria were labeled with rhodamine 123 or Mitotracker (Molecular Probes, Eugene, OR) both of which are cell permeant and accumulate in mitochondria; acridine orange was used to mark chromatin. Prior to maturation, oocytes appeared to be radially symmetrical with no evident polarity; fully mature oocytes exhibited obvious polarity marked by the position of the metaphase II spindle in the cortex. CLSM revealed several interesting features of mitochondrial distribution: (1) A cortical clump of mitochondria was seen approximately 30-45to one side of the metaphase II spindle and marked the region of polar body I extrusion. (2) Large foci of mitochondria (7–14μM) were frequently found around the central region of the mature oocyte, while the central region often exhibited markedly fewer mitochondria. (3) Small mitochondrial foci (3μM) in the cortex and near the GV characterized several oocytes which failed to mature. (4) Non-spindle-associated mitochondria were not uniformly distributed in the mature oocyte but were concentrated in the hemisphere containing the metaphase II spindle. (5) The distal margins of this mitochondrial hemisphere were sharply demarcated at the cortex. These findings should help us understand organelle localization during mammalian oocyte maturation, and may give insights into possible causes of infertility and into early events of preimplantation development. © 1995 Wiley-Liss, Inc.     

Relationship between oocyte morphology and reproductive strategy in loricariid catfishes of the Paraná River, Brazil

Relationships between ovarian structure, oocyte structure/development, and parental care/life history strategies of six loricariid catfishes common in the upper Paraná River, Brazil were examined with analysis of catch data, relative gonad weight, histology, and microscopy. Three life history strategies were observed. Loricariichthys platymetopon , Loricariichthys sp. And Loricaria sp. produce several small clutches of large eggs over a protracted spawning period. Males of these species guard their eggs and larvae, which are transported as a mass on the ventral surface of the male's body. Hypostomus ternetzi and Megalancistrus aculeatus produce the largest mature eggs and the smallest clutches relative to adult mass. The spawning periods of these species are short, and males guard their broods in excavations. Rhinelepis aspera has high fecundity, high relative mass of mature gonads (both sexes), small mature eggs, and broadcast spawning with no parental care. This species migrates to spawn over firm substrates in channel areas during a contracted period. Mature oocytes of external bearers had the thickest zona radiata, followed by the egg scatterer, and cavity nesters. The thickness of the zona radiata probably is an adaptation to protect the developing egg from injury from abrasion. The zona granulosa appeared to be associated with production of secretions responsible for egg adhesion, and this layer was thickest in mature oocytes of the cavity nesting species, followed by the external bearers. All six species have wide distributions in the Paraná River, tributaries, floodplain lagoons, and the Itaipu Reservoir, but brood guarders tended to be most common in lentic habitats.     

The development of meiotic competence in the rat: Role of hormones and of the stage of follicular development

Hypophysectomy of 15-day-old rats (hypox) markedly reduced the normal development of meiotic competence and abolished the development of antral follicles between days 21 and 31 postpartum (pp). Here the correlation among age of the rats, stage of follicular development, and meiotic competence was examined. Administration of pregnant mare's serum gonadotropin (PMSG-3IU) or insertion of an estradiol-17β (E₂) capsule to hypox rats induced the development of meiotic competence provided the treatment started after day 20 pp. Hormonal treatments at an earlier age were not effective in inducing meiotic competence in hypox rats. The induction of meiotic competence by PMSG or E₂ was associated with an increase in the number of granulosa cells and formation of follicular antrum. The finding that PMSG and E₂ failed to induce meiotic competence when administered prior to day 21 pp suggests that the development of meiotic competence is an age-dependent process. When the hormonal treatments commenced after day 21, both follicular development and meiotic competence were induced.     

Modulation of O-GlcNAc glycosylation during Xenopus oocyte maturation

O-linked N-acetylglucosamine (O-GlcNAc) glycosylation is a post-translational modification, which is believed antagonises phosphorylation. We have studied the O-GlcNAc level during Xenopus oocyte meiotic resumption, taking advantage of the high synchrony of this model which is dependent upon a burst of phosphorylation. Stimulation of immature stage VI oocytes using progesterone was followed by a 4.51 +/- 0.32 fold increase in the GlcNAc content, concomitantly to an increase in phosphorylation, notably on two cytoplasmic proteins of 66 and 97 kDa. The increase of O-GlcNAc for the 97 kDa protein, which we identified as beta-catenin was partly related to its accumulation during maturation, as was demonstrated by the use of the protein synthesis inhibitor--cycloheximide. Microinjection of free GlcNAc, which inhibits O-glycosylated proteins-lectins interactions, delayed the progesterone-induced maturation without affecting the O-GlcNAc content. Our results suggest that O-GlcNAc glycosylation could regulate protein-protein interactions required for the cell cycle kinetic.     

Maturation of pig and rat oocytes transplanted into surrogate pig follicles in vitro

Pig oocytes obtained from slaughterhouse material and rat oocytes obtained from PMSG-treated immature females were incubated as isolated oocytes or injected into explanted pig follicles (5–8 mm). Free oocytes of both species, with or without their cumulus investment or gonadotropins during culture, matured at high rates after 30 hr or 9–10 hr of culture, respectively. Gonadotropic stimulation was necessary for maturation of both the native and injected cumulus-intact pig oocytes in follicle culture. Cumulus-free pig oocytes injected into follicle failed to mature in response to gonadotropic stimulation, suggesting an inability to perceive or respond to stimulation. Injected rat oocytes, however, matured irrespective of cumulus investment or gonadotropic stimulation. Their maturation was delayed and reduced at 9 hr. These results in the rat suggest that the pig follicular environment is incapable of regulating rat oocyte maturation but rather presents a permissive or supportive environment for their maturation. The explanted surrogate follicles from the pig or other species may provide a useful model for the study of oocyte-follicle interactions in oocyte maturation within or between species.     

The relationship between parthenogenetic embryonic development and cumulus cell-oocyte intercellular coupling during oocyte meiotic maturation

Intercellular coupling between cumulus cells and oocytes persists after oocyte meiotic maturation has been initiated. The experiments described here focus on the relationship between oocyte-cumulus cell intercellular coupling during maturation and the subsequent embryonic development of spontaneous mouse parthenotes. Several lines of evidence suggest that this coupling during oocyte maturation is required for the acquisition of the capacity for spontaneous mouse parthenotes to develop embryologically. First, the period of time that LT/Sv oocytes remained coupled to cumulus cells during oocyte maturation in vivo corresponded to that required for the acquisition of the capacity for parthenogenetic embryonic development. Second, the longer that cumulus cells were present during Fpontaneous oocyte maturation in vitro, the higher was the percentageofova undergoing subsequent parthenogenetic development. Third, cumulus cell-free oocytes cocultured with cumulus cell-enclosed oocytes during the maturation period in vitro did not develop embryologically. Fourth, intercellular coupling between cumulus cells and oocytes persisted throughout the oocyte maturation period in vitro. Fifth, incubation of oocyte-cumulus cell complexes in medium containing follicle-stimulating hormone (FSH) promoted uncoupling and decreased the percentage of ova undergoing parthenogenetic development. Thus, cell-to-cell communication, mediated via the intercellular coupling pathway between cumulus cells and oocytes, plays an important role during oocyte maturation and relates to subsequent preimplantation development.     

Effects of in vitro culture of mouse fetal gonads on subsequent ovarian development in vivo and oocyte maturation in vitro

Under organ culture, female fetal gonads in mice cannot develop beyond the preantral follicle stage unless the follicles are individually isolated and cultured again. In this study, we investigated the effect of in vitro culture of female fetal gonads before transplantation on subsequent in vivo development. The gonads derived from female fetuses 12.5 days postcoitum were organ-cultured for 0, 7 and 14 days, and then were grafted underneath the kidney capsules of severe combined immunodeficient mice and recovered at 21, 14 and 7 days post-transplantation, respectively. The histological analysis of the grafts showed that the in vitro culture of the fetal gonads restricted follicular development to the antral follicle stage post-transplantation. In the grafts cultured for 14 days, particularly, no antral follicle was observed. However, the oocytes in these follicles had grown to around 65 µm in diameter and had competence to resume meiosis in vitro . When the fetal gonads were grafted after culture for 7 and 14 days, 13.0% and 6.8% of the oocytes progressed to the metaphase II stage, respectively. These data showed significant differences ( P  < 0.05) in comparison with the control group (25.3%). Our results indicate that the in vitro culture of female fetal gonads before transplantation affects the subsequent in vivo development of both follicular cells and oocytes, and in vitro oocyte maturation. However, this effect seems to be more severe in terms of follicular development when compared with oocyte growth and maturation.     

Evaluation of the temporal development of the ovaries in Gadus morhua from the Sound and Kattegat, North Sea

The gonadal development of cod Gadus morhua in the Sound and Kattegat, North Sea, was studied by investigating their histological structure on a temporal scale by intense sampling from September 2002 to May 2003. Different age classes were followed and the proportion mature in each age class within each area was analysed. Based on existing maturity criteria, a modified system, based on histological features, was developed in order to emphasize the crucial step in the developmental process, i.e . the passage from endogenous to exogenous vitellogenesis. Only fish that had attained exogenous vitellogenesis could be considered as being reproductively active in the forthcoming breeding season ( Kjesbu et al ., 2003 ). The histological based maturity scale will greatly improve the capability of separating mature from immature individuals in the studied areas, that is fundamental for an accurate and unambiguous estimate of the spawning stock biomass. Furthermore, the results showed a larger proportion of mature individuals per age class in the Kattegat stock compared to the Sound stock, which implied an earlier maturity for this stock. This difference in maturation pattern might have been related to a relaxation of competition, i.e . enhanced growth rate, as an effect of different levels of exploitation and technical fishing regulations between the two adjacent areas.     

Intrafollicular control of oocyte maturation in the PIG

Summary The mammalian oocyte becomes arrested at the diplotene stage of the first meiotic division during prenatal or early postnatal life. It remains arrested in meiosis until shortly before ovulation when the surge of gonadotropin induces resumption and completion of meiosis to the metaphase II stage. When oocytes are harvested from medium-sized or large follicles of pig and other species and cultured, they resume meiosis spontaneously indicating that the follicles exert an inhibitory influence on meiosis. To analyze the control of meiosis by follicular components, culture of isolated pig oocytes in the presence of follicular cells or follicular fluid (FF1) has been used as a model in this laboratory. An oocyte maturation inhibitor (OMI) has been isolated and partially purified by ultrafiltration and gel chromatography of FF1 and shown to be a polypetide with a molecular weight in the order of 2000 daltons. Physiological characterization has shown that the effect of OMI in vitro is reversible and that it can be overcome by luteinizing hormone (LH). The action of OMI requires the presence of cumulus cells surrounding the oocyte since it was found that denuded oocytes, stripped of cumulus cells, do not respond to OMI. Furthermore, when cumulus-enclosed oocytes were cultured, OMI inhibited the differentiation of the cumulus cells in terms of morphology and progesterone secretion in a dose-related manner. The inhibition of cumulus differentiation by OMI was reversible and could be overcome by LH. The results indicate that the effect of partially purified OMI upon meiosis may be mediated by the cumulus cells. Presented in the formal symposium on Sexual Differentiation in Vitro and in Vivo at the 29th Annual Meeting of the Tissue Culture Association, Denver, Colorado, June 4–8, 1978. This study was supported by Grants 760–0530 from the Ford Foundation (to C.P.C.), and Grant B78-14F-5158-01 from the Swedish Medical Research Council (to T.H.).     

Secondary follicle growth and oocyte maturation by culture in alginate hydrogel following cryopreservation of the ovary or individual follicles

An option for fertility preservation for women facing a cancer diagnosis involves the cryopreservation of ovarian tissue for later re‐transplantation or in vitro culture, with in vitro culture preferred to avoid reintroduction of the cancer. Small, immature follicles survive the freeze‐thaw process, and can be matured through in follicle maturation (IFM) that involves an initial growth of the follicle and subsequent maturation of the oocyte. The ovarian tissue can be cryopreserved in two forms: (i) cortical strips consisting of follicles and surrounding stroma (Cryo‐Ov) or (ii) individually isolated follicles (Cryo‐In). The aim of this study was to assess the follicle growth and oocyte maturation for follicles that were cryopreserved either as strips or individually using a slow‐freezing cryopreservation method. The two follicle groups, together with non‐cryopreserved control follicles, were grown in an alginate‐based three‐dimensional culture system for 12 days. The overall survival, size increase and antrum formation rates were comparable among the three groups. At day 12 of culture, Androstenedione levels were decreased in the Cryo‐Ov group relative to the other two, and the ratio of progesterone to estradiol was increased in the two cryopreserved groups relative to the control. Both Gja1 (known as connexin 43) and Gja4 (known as connexin 37) mRNA expression were decreased at day 6 in the cryopreserved groups relative to controls, and by day 12, Gja1 was similar for all three groups. Moreover, Cryo‐In resulted in lower GVBD rate indicating some impaired oocyte development. Overall, the present study demonstrated that mouse preantral follicles, either within ovarian tissues or individually isolated, could be successfully cryopreserved by the slow‐freezing method, as evidenced by post‐thaw follicle development and steroidgenesis, oocyte maturation and molecular markers for oocyte and/or granulosa cells connection. Biotechnol. Bioeng. 2009;103: 378–386. © 2009 Wiley Periodicals, Inc.     

Developmental capacity of mouse oocytes that undergo maturation in vitro: Effect of the hormonal state of the oocyte donor

In a previous study, it was shown that cumulus cell-enclosed germinal vesicle (GV)-stage oocytes, isolated from pregnant mares' serum gonadotropin (PMSG)-primed immature (22–24 day old) mice and that underwent spontaneous maturation in vitro, exhibited frequencies of embryonic development similar to oocytes stimulated to mature and ovulate in vivo by administration of gonadotropins [Schroeder AC, Eppig JJ, (1984) Dev Biol 102:493–497]. In the present study, the effect of the hormonal state of the oocyte donor on the capacity of in vitro matured oocytes to be fertilized and undergo pre- and post-implantation development was explored further. Oocytes were isolated at the GV-stage from the following groups of mice: 1) unprimed immature mice; 2) adult cycling mice; 3) unprimed Snell dwarf (dw) mice that have undetectable levels of growth hormone (GH), prolactin, and thyroid-stimulating hormone (TSH); and 4) primed and unprimed hypogonadal (hpg) mice that have undetectable levels of circulating gonadotropins. Oocytes maturing in vitro after isolation from normal unprimed immature or adult mice at all stages of the estrous cycle acquired full developmental capacity. GV-stage oocytes isolated from dwarf mice showed embryonic development equivalent to normal ( + /?) littermate controls. Therefore, GH, TSH, or prolactin are not required during oogencsis in vivo to promote the acquisition of competence to complete embryogenesis after maturation in vitro. Oocytes from hypogonadal mice had a much reduced capacity for preimplantation development when compared with normal littermates. Administration of PMSG to the hypogonadal mice significantly increased the developmental capacity of oocytes that underwent maturation in vitro. Gonadotropins, therefore, have a beneficial effect on the oocytc's capacity for embryonic development.     

Protein phosphorylation patterns during in vitro maturation of the goat oocyte

Protein phosphorylation patterns were studied by radiolabelling goat cumulus oocyte complexes with [³²P]orthophosphate for various periods of time. The radiolabelled denuded oocytes were assessed for nuclear status and were used individually for gel electrophoresis. This study demonstrated that specific changes in protein phosphorylations were programmed during goat oocyte maturation. One of the most prominent changes was a general increase in the phosphorylation rate at germinal vesicle breakdown (GVBD). From 8 hr of culture, dominant phosphoprotein bands with apparent molecular weights of 27, 31, 40, and 50 kD were observed; they remained at this level until the metaphase II stage. In the molecular weight range of 65–80 kD, the protein phosphorylation pattern exhibited characteristic differences, with a complex series of phosphoproteins appearing and disappearing, during maturation. Addition of 6-dimethylaminopurine (6-DMAP) at the onset of culture blocked the maturation process after GVBD and induced a dramatic condensation of chromatin. When added at different times after GVBD, 6-DMAP invariably induced chromosome condensation. This inhibition was partly reversible; i.e., after removal of the drug, oocytes were able to progress only until metaphase l. © 1993 Wiley-Liss, Inc.     

Oocyte-selective expression of MT transposon-like element, clone MTi7 and its role in oocyte maturation and embryo development

Previously, we found MT transposon-like element, clone MTi7 (MTi7) is highly expressed in the mouse ovary. Here, we show that the MTi7 is expressed in the oocyte from the primordial to the preovulatory follicles. For RNA interference (RNAi), double stranded RNAs (dsRNAs) were prepared for MTi7 and c-mos, a control gene with known functions. Each dsRNA was microinjected into germinal vesicle (GV) stage oocytes or zygotes with pronuclei (PN), after which developmental changes, mRNA expression, and nuclear and microtubular organization were analyzed. We found a 43.4-53% GV arrest in the microinjected oocytes with a concomitant decrease in targeted mRNA expression. In MTi7 dsRNA-injected early and late PN zygotes, a 92.9% 1-cell arrest and 76.9% 2-cell arrest were observed, respectively. This is the first report of an oocyte-selective expression of MTi7 mRNA, and our results strongly suggest that MTi7 involved in the nuclear membrane breakdown during oocyte maturation and embryo development.