JSAR Outstanding Research Award. In vitro growth of mammalian oocytes

The mammalian ovary contains a huge number of small follicles of various sizes, and each follicle encloses a small oocyte. Only a small number of non-growing oocytes (30 microm in the pig and cow) grow to their final size (120 microm), mature, and are ovulated. In vitro growth (IVG) culturing of small oocytes will provide a new source of mature oocytes for livestock production. Using the IVG culture system, non-growing mouse oocytes in primordial follicles grow to their final size and acquire full developmental competence. Among large animals, babies were produced from ovarian oocytes by IVG culture only in the cow. However, the oocytes used were not non-growing ones but at the mid-growth stage (90-99 microm in diameter) in early antral follicles. Xenotransplantation of the follicles at an early stage to immuno-deficient mice is a substitute for an effective long-term IVG culture of much smaller oocytes. IVG and xenotransplantation of small oocytes at a specific size will provide a new understanding of the mechanisms regulating oogenesis and folliculogenesis in the complex mammalian ovary.     

Evaluation of numbers of microscopic and macroscopic follicles in cattle selected for twinning

We hypothesized that the number of microscopic follicles present in the ovaries of cattle selected for twin births (Twinner) would be greater than in the ovaries of contemporary Controls. Ovaries were collected from seven Control and seven Twinner cows at slaughter. The number of Small (1 to 3.9 mm), Medium (4 to 7.9), and Large (> 8 mm) surface follicles was counted and one ovary was fixed for histological evaluation. Fifty to sixty consecutive 6-microm slices were taken from a piece of cortical tissue, approximately 1 cm x 1 cm in area, located between the surface follicles. Microscopic follicles were classified as primordial (oocyte surrounded by a single layer of squamous pregranulosa cells), primary (oocyte surrounded by a single layer of one or more cuboidal granulosa cells), secondary (oocyte surrounded by two or more layers of granulosa cells), or tertiary (oocyte surrounded by multiple layers of granulosa cells with initiation of antrum formation to < or = 1 mm in diameter). The total number of follicles was counted in 200 fields (2 mm x 2 mm) per ovary. A field containing no follicles was classified as empty. There were significantly more secondary follicles in Twinner compared with Control ovaries (12.9 vs 6.3; P < .05). Twinners also tended to have more small surface follicles (35.4 vs 49.0; P < 0.1). We conclude that ovaries of Control and Twinner cows do not differ in the number of primordial follicles or in the number of follicles activated into the growing pool; however, Twinner cows are able to maintain more growing follicles at the secondary and subsequent stages of development.     

In vitro Growth and Maturation of Caprine Oocytes

This study was conducted to culture in vitro caprine pre-antral follicles for determining the competence of growth and maturation of oocytes and establishing a suitable culture system for oocyte maturation from pre-antral follicles. Two different culture methods (microdrop and agar gel clot) were employed to culture caprine pre-antral follicles. The pre-antral follicles were isolated from prepubertal goat ovaries by treatment with collagenase and DNase. The isolated pre-antral follicles were cultured in basic culture medium for 9 days (for growth). And oocytes were cultured in maturation culture medium for another 2 days for maturation. The result demonstrated that the growth rate of oocytes cultured in microdrops was significantly (p < 0.05) higher than that in agar gel clots, whereas the viability of oocytes in microdrops was considerably (p < 0.05) lower than that in agar gel clots. The oocytes grew over 150 microm in diameter, and two of 151 oocytes cultured in microdrops yielded morphologically abnormal first polar bodies. However, the size of oocytes cultured in agar gel approached to 120 microm in diameter and no polar body was produced.     

Follicle size-dependent changes in follicular fluid components and oocyte diameter in Antarctic minke whales (Balaenoptera bonaerensis)

The concentrations of various components of follicular fluid were compared among three groups of follicles (small, <5 mm; medium: 5-10 mm; large, >10 mm) with a control that consisted of the components of umbilical serum using seven pregnant Antarctic minke whales. Follicular oocytes recovered from the follicles were also used for measurement of oocyte diameter after removing the cumulus cells. The mean diameter of the ooplasm in the oocytes from the large follicles (143.2 microm) was significantly greater than those from the small (127.1 microm) and medium (131.7 microm) follicles, although there were no significant differences in diameter of the whole oocyte and thickness of the zona pellucida among the three follicular sizes. The osmolarity of the follicular fluid from the small follicles (363.3 mOsmol) was significantly lower than that of the medium follicles (388.9 mOsmol) and tended to be lower than that of large (381.9 mOsmol) follicles, respectively, both of which were similar to that of the umbilical serum (379.5 mOsmol). There was no significant difference in the concentrations of all components of the follicular fluid between the medium and large follicles. As compared with the values of the umbilical serum, the total-protein, glucose, albumin and chlorine concentrations of the follicular fluid from the medium and large follicles were significantly higher, and the total cholesterol and calcium concentrations were significantly lower. The concentrations of lactic acid (85.3-136.0 mg/dl) of the follicular fluid from the three groups of follicles were significantly lower than that of the umbilical serum (360.0 mg/dl). Among the follicles, the follicular fluid from the small follicles (136.0 mg/dl) contained a significantly higher concentration of lactic acid than that from the large follicles (85.3 mg/dl). The progesterone concentrations were not significantly different among the fluid from the three group of follicles and the umbilical serum: however, the estradiol 17-beta concentrations of the follicular fluid increased with the size of the follicle (14.3 and 34.6 ng/ml for small and large follicles, respectively). These results offer new information concerning whale reproductive physiology, especially for improvement of in vitro oocyte maturation and related technologies in whales.     

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.     

In vitro growth of mouse ovarian preantral follicles and the capacity of their oocytes to develop to the blastocyst stage.

Two groups of mouse preantral follicles with diameters of 125-150 and 151-175 microm were cultured individually for 6 days in a medium supplemented with FSH and fetal calf serum to determine their in vitro growth characteristics. Their oocyte capacity for maturation and development to the blastocyst stage following in vitro fertilization was also assessed. Antral formation rate at the end of culture was higher in the follicles of 151-175 microm (89%) than 125-150 microm (76%). The timing of antrum formation was different between the two follicle categories: most 151-175 microm follicles formed antra earlier than 125-150 microm follicles (days 4 and 5 vs. 5 and 6). However, follicle diameters at the time of antrum formation were the same regardless of the initial size and the culture period. Maturation rates of the oocytes derived from both categories of in vitro grown follicles (70 and 62%) were not different from those of oocytes from in vivo grown follicles (74%). The in vitro derived oocytes, however, showed less cleavage (30 and 35%) than the in vivo derived oocytes (89%). Although the oocytes from both follicle categories developed to the morula stage after in vitro fertilization, blastocysts were only obtained from oocytes derived from the 151-175 microm category. These results demonstrate that an individual follicle culture system using a medium with FSH and fetal calf serum supports in vitro growth of mouse preantral follicles with diameters of 151-175 microm to the preovulatory stage, and that their oocytes have the capability to develop to the blastocyst stage.     

Viability and Growth of Buffalo Preantral Follicles and their Corresponding Oocytes In Vitro: Effect of Growth Factors and β Mercaptoethanol

The present study was undertaken to isolate buffalo preantral follicles (PFs), to test the viability and sizes of buffalo PFs and to examine the effect of various growth factors (insulin-like growth factor, fibroblast growth factor) and an antioxidant (β mercaptoethanol) on the in vitro growth, survival and antrum formation rates of buffalo PFs and growth rates of oocytes in cultured PFs. Preantral follicles from slaughtered buffalo ovaries were recovered by a combined mechanical and enzymatic method. The recovery rates of >40–100, 101–200, 201–300, 301–400 and 401–500 μm PFs were 5.1, 3.2, 3.1, 6.3 and 5.1 per ovary, respectively. The corresponding viability rates were 76.1%, 78.1%, 85.2%, 92.5% and 92.6%, respectively. There was a positive correlation ( r  = 0.73) between oocyte size and the follicular size. However, there was no significant correlation between the size of oocyte and its viability at the time of its retrieval from ovary. Insulin-like growth factor and fibroblast growth factor improved the survival of buffalo PFs and regulated their growth in culture. The growth factors and β mercaptoethanol in association synergically improved the growth and survival of buffalo PFs.     

Allometric study on the relation between the growth of preantral and antral follicles and that of oocytes in bovine ovaries

We examined the relation between the growth of preantral and antral follicles and that of their oocytes in the ovaries of Holstein cows. We recovered follicles and oocytes (419 pairs) from the ovaries of 61 cows, and examined the relative growth relating the follicle diameter to the oocyte diameter by using six regression models for only healthy oocytes and all the oocytes including degenerated ones with and/or without zona pellucida. The best fitting model was found to be a hyperbolic regression (R(2): 0.999). The differentiated equation for the hyperbolic curve in normal oocytes with zona pellucida and the follicles was found to be y'=41.0/(x+0.253) (2): y and x are diameters of oocytes (microm) and follicles (mm), respectively. When follicles grew more than 4.0 mm in diameter, the growth rate of the oocytes calculated by the differentiation equation was found to be an asymptotic depression around zero. Thus, it is suggested that when the follicles grow more than 4.0 mm in diameter, the oocytes reach full size and cease to grow. Furthermore, it is considered that the equation can be applied to the assessment of normal growth in oocytes and follicles cultured in vitro.     

不同月龄绵羔羊卵泡发育的比较研究

本研究旨在比较1、3月龄绵羔羊激素处理后卵巢、子宫及血液中促卵泡激素(FSH)变化,研究不同月龄对羔羊卵泡发育的影响。通过对1、3月龄羔羊进行FSH和孕马血清促性腺激素(PMSG)处理,比较羔羊在激素处理前后血液中FSH水平和卵巢、子宫大小变化,卵巢上2～8 mm卵泡的数量和卵母细胞体外成熟、受精后胚胎的发育情况。结果表明:1月龄羔羊实验组体内整体FSH水平高于3月龄羔羊(P<0.05)。1月龄羔羊注射外源激素后两侧卵巢可获卵母细胞数(42.3±2.5、36.8±1.1)枚及体外受精囊胚发育率(16.33%±0.96%)显著高于3月龄羔羊卵母细胞数(10.0±0.7、8.5±0.6)枚及囊胚率(9.29%±1.55%)(P<0.05)。羔羊进行超数排卵处理时卵巢上卵泡发育与血液中FSH水平密切相关,且较高的FSH水平预示着较多的卵泡发育。     

Leptin Immunohistochemical Staining in the Porcine Ovary

This study aimed to investigate leptin immuno‐staining of the porcine ovary in different reproductive stages. Ovaries from 21 gilts were collected from slaughterhouses. The ovarian tissue sections were incubated with a polyclonal anti‐leptin as a primary antibody. The immuno‐staining in ovarian tissue compartments was calculated using imaging software. Leptin immuno‐staining was found in primordial, primary, preantral and antral follicles. Leptin immuno‐staining was expressed in the oocyte and granulosa and theca interna layers in both preantral and antral follicles. In the corpora lutea, leptin immuno‐staining was found in the cytoplasm of the luteal cells. The leptin immuno‐staining in the granulosa cell layer of preantral follicles did not differ compared to antral follicles (90.7 and 91.3%, respectively, P > 0.05). However, the leptin immuno‐staining in the theca interna layer of preantral follicles was lower than antral follicles (49.4 and 74.3%, respectively, P < 0.001). There was no difference in leptin immuno‐staining in the granulosa cell layer between follicular and luteal phases (92.4 and 89.7%, respectively, P > 0.05). However, the leptin immuno‐staining in the theca interna layer of follicular phase was greater than that in the luteal phase (72.7 and 51.0%, respectively, P < 0.001). These findings indicated that leptin exists in different compartments of the porcine ovary, including the oocyte, granulosa cells, theca interna cells, corpus luteum, blood vessel and smooth muscles. Therefore, this morphological study confirmed a close relationship between leptin and ovarian function in the pig.     

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。     

Quantification and Viability Assessment of Isolated Bovine Primordial and Primary Ovarian Follicles Retrieved Through a Standardized Biopsy Pick-Up Procedure

The feasibility of repeated collection and enzymatic isolation of large numbers of viable primordial and primary follicles from living donor cows were tested. Ovarian cortical biopsies were collected transvaginally by the Biopsy Pick-Up (BPU) device, a modification of an Ovum Pick-Up instrument. Follicles were enzymatically isolated from the retrieved cortical tissue samples, and follicle viability was determined by a live/dead fluorescent assay. Six cows were subjected to BPU once per week during 4 consecutive weeks, and in each BPU session 4 cortical tissue samples were collected per ovary. Over the 4-week trial period, a total of 1443 primordial and primary follicles were collected, 1358 (94%) of which were primordial and 85 (6%) were primary follicles. In each BPU session, an average 60.1 ± 10.7 (mean ± SEM) primordial and primary follicles were isolated per cow. The number of follicles varied considerably throughout the trial period and between cows. Statistical analysis of the data, however, did not support the presence of any distinct trends in the follicle yields over time or between cows. A total of 111 enzymatically isolated follicles were analyzed for viability with fluorescent probes. The vast majority of isolated follicles (92.8%) were totally viable. We conclude that the standardized BPU procedure generates sufficiently large numbers of vital primordial and primary follicles, thus validating BPU as a new tool for research into early bovine follicular development.     

In vitro culture of mouse preantral follicles using membrane inserts and developmental competence of in vitro ovulated oocytes

To develop a reliable follicle culture system, mouse preantral follicles 150-200 microm in diameter were cultured individually for 5 or 6 days in membrane inserts or in droplets, and then induced to ovulate with hCG (Experiment 1). The nuclear maturation and developmental competence of the oocytes that ovulated from the follicles cultured in inserts were determined (Experiment 2). There was no significant difference between the two culture systems in the survival rate (83 and 77%). However, follicles cultured in inserts showed a higher ovulation rate (63%) than those cultured in droplets (39%, P<0.05). About 80% of the oocytes that ovulated from the follicles cultured in inserts were at the metaphase II stage. After in vitro fertilization, 75 and 48% of in vitro ovulated oocytes cleaved and developed into blastocysts, respectively. These results demonstrate that the insert culture system is superior to the droplet culture system in terms of follicular growth and ovulation, and can be used to investigate the growth and ovulation of follicles in vitro.     

Expression of aquaporin 4 in the chicken ovary in relation to follicle development

In the mammalian ovary, aquaporins (AQPs) are thought to be involved in the regulation of fluid transport within the follicular wall and antrum formation. Data concerning the AQPs in the avian ovary is very limited. Therefore, the present study was designed to examine whether the AQP4 is present in the chicken ovary, and if so, what is its distribution in the ovarian compartment of the laying hen. Localization of AQP4 in the ovarian follicles at different stage of development was also investigated. After decapitation of hens the stroma with primordial follicles and white (1–4 mm), yellowish (4–8 mm), small yellow and the three largest yellow pre‐ovulatory follicles F3‐F1 (F3 < F2 < F1; 20–36 mm) were isolated from the ovary. The granulosa and theca layers were separated from the pre‐ovulatory follicles. The AQP4 mRNA and protein were detected in all examined ovarian compartments by the real‐time PCR and Western blot analyses, respectively. The relative expression of AQP4 was depended on follicular size and the layer of follicular wall. It was the lowest in the granulosa layer of pre‐ovulatory follicles and the highest in the ovarian stroma as well as white and yellowish follicles. Along with approaching of the largest follicle to ovulation the gradual decrease in AQP4 protein level in the granulosa layer was observed. Immunoreactivity for AQP4 was present in the granulosa and theca cells (theca interna ≥ theca externa > granulosa). The obtained results suggest that AQP4 may take part in the regulation of water transport required for follicle development in the chicken ovary.     

The Nuclear Morphology and Cortical Granule Distribution of Oocytes from Different Diameter Follicles of Sheep

This experiment was conducted to discuss the nuclear morphology and cortical granule distribution of sheep oocyte in vivo.In this study, the sheep antral follicles were divide into early period antral follicles group (1 mm≤diameter≤2.5 mm) and middle period antral follicles group(2.5 mm相似文献   

不同直径的绵羊卵泡中卵母细胞核相及皮质颗粒分布特征分析

为了探讨绵羊体内卵母细胞的核相及皮质颗粒的分布特征,本研究根据绵羊卵泡直径将绵羊有腔卵泡分为早期有腔卵泡(1mm≤直径≤2.5mm)与中期有腔卵泡(2.5mm<直径≤7.5mm)两组,用地衣红染色方法观察两组绵羊卵泡中卵母细胞的核相特征及所占比例,用FITC-PNA、Hoechst 33342双染方法观察两组绵羊卵泡中的不同核相时期的卵母细胞的皮质颗粒分布特征。结果表明,绵羊早期有腔卵泡中的卵母细胞大部分处于GV1期,其核膜边缘不整齐,染色体呈细丝状,紧贴于核膜下均匀分布或集中于核膜下某处分布,皮质颗粒在胞质中密集、均匀的分布。绵羊中期有腔卵泡中的卵母细胞,大部分处于GV3~GV4期,其核膜边缘清晰、着色较轻,染色体短而粗,在核质中均匀分布,核质明显脱颗粒化,皮质颗粒开始向细胞膜迁移,部分卵母细胞的皮质颗粒在细胞膜下形成一圈密集的带状区域。由此可见,绵羊早期与中期有腔卵泡中的卵母细胞大部分处于GV期的不同阶段,其胞质中皮质颗粒开始发生迁移的时间早于生发泡破裂(GVBD)期。     

Cumulus cell expansion and first polar body extrusion during in vitro oocyte maturation in relation to morphological and morphometric characteristics of the dromedary camel ovary

The morphological and morphometric characteristics of the ovary are fundamental properties for in vitro oocyte maturation. Nuclear maturation, including first polar body (1PB) extrusion, cytoplasmic maturation and cumulus cell (CC) expansion are the criteria for in vitro maturation (IVM) of oocyte. This study was designed to determine the effect of morphological and morphometric features of the ovary on CC expansion and 1PB extrusion during IVM of oocyte in the adult female dromedary camel. The weight, volume and three dimensions of ovaries from slaughtered dromedary camels and oocytes inside zona diameter and zona pellucida thickness were measured. The follicles were classified in regard to the size and oocytes according to their ooplasm appearance and CC compactness. Aspirated cumulus oocyte complexes (COCs) were incubated for 48 hr (with a 6‐hr interval) in Hams‐F10, and CC expansion and 1PB extrusion were assessed. Significant differences were seen in the shape, weight, volume and three dimensions of the ovaries between ≤4‐year‐old and >4‐year‐old dromedary camel (p < .5). Approximately, 95.82% of follicles were 2–4 mm in diameter. The mean (±SD) of inside zona diameter of the oocyte and zona pellucida thickness was 132.22 ± 13.8 and 14.64 ± 2.24 μm, respectively, in >4‐year‐old dromedary camel. The CC expansion and 1PB extrusion were seen in 86% and 21.88% of COCs, respectively. Age and sexual conditions of dromedary camel influence the morphological and morphometric characteristics of the ovary. Most COCs retrieved from 2–6 mm follicles are cultivable. The most slaughterhouse‐derived COCs retrieved from 2–6 mm follicles of non‐pregnant dromedary camels are excellent and good and yielding a most favourable diameter to achieve the developmental competence for IVM in an optimal time of 24–30 hr; the optimal time for CC expansion is 24–30 hr in this species. However, the CC expansion is a prerequisite process, but not sufficient for IVM.     

Xenografting of bovine secondary follicles into ovariectomized female severe combined immunodeficient mice

Xenografting of ovarian tissue into immunodeficient mice has been used as a model to study the dynamics of follicular development and provides an alternative method for the production of mature oocytes. In a previous experiment, we demonstrated that xenografted bovine secondary follicles developed to the antral stage in severe combined immunodeficient (SCID) mice. In the present study, we examined the development of bovine secondary follicles (140-190 microm in diameter) grafted into ovariectomized mice in comparison with intact female mice as a control. At 4 weeks after grafting, several antral follicles ranging from 350 to 550 microm (457.6 +/- 50.8 microm) in diameter were found in the control mice, while a single large (larger than 2.5 mm) antral follicle and other small follicles were observed in every ovariectomized mouse. At 6 weeks after grafting, the mean diameter of morphologically normal follicles had further increased in the control group (591.8 +/- 132.0 microm). In ovariectomized mice, however, the mean diameter of follicles decreased (4 weeks: 864.2 +/- 988.2 microm; 6 weeks: 496.5 +/- 137.6 microm), since the single large antral follicle observed at 4 weeks had degenerated by 6 weeks. In control mice, more than 70% of follicles were morphologically normal and formed an antrum, and most of the follicles contained morphologically normal oocytes which grew to 122.5 +/- 2.2 microm. In ovariectomized mice, morphologically normal oocytes also grew larger than before grafting, but their survival rate was significantly lower than that in control mice. These results suggest that ovariectomy of host mice alters the developmental pattern of xenografted bovine secondary follicles to accelerate a single follicle to develop in the graft.     

The endothelial nitric oxide synthase/nitric oxide system is involved in the defective quality of bovine oocytes from low mid-antral follicle count ovaries

In a previous survey concerning cows of reproductive age, we demonstrated that oocytes isolated from ovaries with <10 medium antral follicles of 2 to 6 mm in diameter (low ovaries; Lo) show less developmental competence than oocytes collected from ovaries with >10 medium antral follicles (high ovaries; Hi). The aim of the present study was to evaluate whether a defective endothelial nitric oxide synthase/nitric oxide (eNOS/NO) system and vasculature in healthy medium antral follicles is likely to reduce oocyte competence from Lo ovaries. Thus, experiments were conducted to 1) immunolocalize eNOS protein during folliculogenesis; 2) quantify eNOS protein/vasculature in the follicle wall; and 3) verify if NO donor, S-nitroso acetyl penicillamine (SNAP) administration during in vitro maturation affects developmental competence of oocytes isolated from Lo ovaries. Endothelial nitric oxide synthase protein was detected in granulosa and theca cells, as well as in blood vessels from primordial to antral follicles. Quantitative analysis indicated that in medium antral follicles from Lo ovaries, eNOS protein expression and vasculature were reduced (P < 0.05). The addition of SNAP improved blastocyst and hatching rates of oocytes from Lo ovaries, promoting a percentage similar to oocytes from Hi ovaries, and reduced the percentage of apoptotic nuclei in in vitro-produced blastocysts (P < 0.05). Results from our study suggest that in bovine ovaries with small mid antral follicle number, a defective eNOS/NO system is related to a reduced follicle vasculature and may affect oocyte quality, thus inducing a premature decline of fertility.     

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.