P. E. J. Bols

Metabolite and ionic composition of follicular fluid from different-sized follicles and their relationship to serum concentrations in dairy cows

Metabolic changes in blood serum may be reflected in the biochemical composition of follicular fluid and could indirectly influence oocyte quality. The purpose of this study was to examine the biochemical composition of follicular fluid harvested from different-sized follicles and its relationship with that of blood serum in dairy cattle. Following slaughter, blood samples were collected from dairy cows n=30 and follicular fluid aspirated from three size classes of non-atretic follicles (<4 mm, 6-8 mm and >10 mm diameter). Samples remained independent between cows and between size classes within cows. Serum and follicular fluid samples were assayed using commercial clinical and photometric chemistry assays for ions (sodium, potassium and chloride) and metabolites (glucose, beta-hydroxybutyrate (beta-OHB), lactate, urea, total protein, triglycerides, non-esterified fatty acids (NEFA) and total cholesterol). Results showed that follicular fluid concentrations of glucose, beta-OHB and total cholesterol increased from small to large follicles and decreased for potassium, chloride, lactate, urea and triglycerides. There was a significant concentration gradient for all variables between their levels in serum and follicular fluid (P<0.05). Significant correlations were observed for chloride (r=0.40), glucose (r=0.56), beta-OHB (r=0.85), urea (r=0.95) and total protein (r=0.60) for all three follicle size classes and for triglycerides (r=0.43), NEFA (r=0.50) and total cholesterol (r=0.42) for large follicles (P<0.05). The results from the present study suggest that the oocyte and the granulosa cells of dairy cows grow and mature in a biochemical environment that changes from small to large follicles. Furthermore, the significant correlation between the composition of serum and follicular fluid for the above-mentioned metabolites suggests that metabolic changes in serum levels will be reflected in the follicular fluid and, therefore, may affect the quality of both the oocyte and the granulosa cells.

Nutrient Prioritization in Dairy Cows Early Postpartum: Mismatch Between Metabolism and Fertility?

For several decades, researchers worldwide report a decrease in fertility in high-yielding dairy cows, most probably based on conflicting metabolic and reproductive needs. The dairy herd managers success at improving milk production has been accompanied by a negative trend for the most visible reproductive parameters such as calving intervals, number of days open and number of inseminations needed per pregnancy. In parallel, many research groups studied the metabolic and endocrine factors that influence follicular growth and the developmental competence of oocytes and embryos. In the past, herd managers and reproductive biologists each tried to tackle the same problems with limited consultation. More recently, the situation has improved significantly and theriogenologists, nutritionists and veterinarians now conduct research in multidisciplinary teams. This review paper starts in a general way by discussing nutrient prioritization towards the udder to guarantee milk production and by describing interactions between the somatotropic and gonadotropic axis. It then focuses on the consequences of the negative energy balance on follicular growth and environment, oocyte and embryo quality, not only by summarizing the currently accepted hypotheses but also based on clear scientific evidence at the follicular level. All this, with one question in mind: is there a mismatch between metabolism and fertility and what can the dairy manager learn from research to tackle the problem of reduced fertility?

The effect of nutritionally induced hyperlipidaemia on in vitro bovine embryo quality

BACKGROUND Obesity is associated with female reproductive abnormalities. Hyperlipidaemia might alter the embryonic micro-environment and potentially result in reduced fertility. We aimed to induce hyperlipidaemia nutritionally and investigate the consequences of hyperlipidaemic culture conditions on bovine in vitro embryo development, embryo quality and gene expression patterns. METHODS Bovine zygotes (n = 1545) were cultured in synthetic oviductal fluid medium supplemented with serum from heifers (n = 3), each fed three successive dietary treatments: (i) control serum, following a hay-based diet, (ii) hyperlipidaemic serum, following a carbohydrate and protected palm-oil-rich diet (FatCh) or (iii) hyperlipidaemic serum, following a protected palm-oil-rich diet (Fat). Blastocysts were evaluated for development, cell count, picnotic and mitotic indexes and cryotolerance. Selected mRNA transcripts were measured by quantitative RT-PCR. RESULTS FatCh and Fat diets approximately doubled the total cholesterol concentrations, compared with controls (167.1 +/- 11.9, 150.0 +/- 12.8 versus 83.4 +/- 13.7 mg/dl, respectively, P < 0.05), and fatty acid concentrations (8146.60 +/- 214.61, 6935.56 +/- 1081.04 versus 3944.0 +/- 425.07 micromol/l, respectively, P < 0.05). Supplementation of culture media with FatCh and Fat serum significantly reduced blastocyst rates, compared with controls (27.8, 23.4% versus 36.2%, respectively, P < 0.01), total cell number (103.3 +/- 30.1, 95.6 +/- 28.2 versus 146.9 +/- 34.2, respectively, P < 0.01), mitotic index (1.3 +/- 1.1, 1.7 +/- 2.4 versus 3.6 +/- 2.2%, respectively, P < 0.01) and hatching rates after vitrification (20.4, 13.8 versus 35.7%, respectively, P = 0.03). Embryos in FatCh and Fat groups exhibited significantly higher mRNA levels for genes related to apoptosis and metabolism, compared with controls. CONCLUSIONS This combined in vivo and in vitro model indicates that the exposure of preimplantation embryos to hyperlipidaemic conditions may result in reduced embryo quality and developmental potential, possibly resulting in poorer fertility.

BMI-related metabolic composition of the follicular fluid of women undergoing assisted reproductive treatment and the consequences for oocyte and embryo quality

STUDY QUESTION Is the metabolic composition of the follicular fluid of women undergoing assisted reproductive treatment (ART) related to serum composition and BMI and is it associated with oocyte and embryo quality? SUMMARY ANSWER We showed that metabolic alterations in the serum are reflected in the follicular fluid and that some of these alterations may affect oocyte quality, irrespective of BMI. WHAT IS KNOWN ALREADY Many studies have focused on the effect of metabolic disorders, such as obesity and type 2 diabetes, on assisted reproduction outcomes. There are, however, only few studies focusing on the importance of the correlation between serum and follicular fluid compositions and the composition of the follicular fluid as the oocytes micro-environment, affecting its development and subsequent embryo quality. DESIGN, PARTICIPANTS AND SETTING In this prospective cohort study, patient information, fertility treatment outcome data, follicular fluid and serum were obtained from women undergoing ART. Patients were categorized according to their BMI (kg/m(2)) as normal (n = 60), overweight (n = 26) or obese (n = 20). Serum and follicular fluid samples were analyzed for urea, total protein, albumin, cholesterol, high-density lipoprotein cholesterol, triglycerides, non-esterified fatty acids, apolipoprotein A1, apolipoprotein B, glucose, lactate, C-reactive protein, insulin-like growth factor -1 (IGF-1), IGF-binding protein 3 (only in follicular fluid), free carnitine and total carnitine. Metabolite concentrations in serum and follicular fluid samples were correlated and were associated with BMI and fertility treatment outcome. MAIN RESULTS Most serum metabolite differences between patients were reflected in the follicular fluid (P < 0.05). Follicular fluid apolipoprotein A1 and follicular fluid total protein concentrations negatively affected oocyte quality parameters (P < 0.05). However, overall BMI-related associations were poor. BIAS, CONFOUNDING AND OTHER REASONS FOR CAUTION In this study, we included every patient willing to participate. Within this cohort, women with a BMI transcending 35 kg/m(2) were scarce (n = 2), because extremely overweight women are mostly advised to lose weight before starting ART. Furthermore, the number of patients in each BMI group was different, possibly masking associations between the metabolic composition of serum and follicular fluid and oocyte quality parameters. GENERALIZABILITY TO OTHER POPULATIONS There were significant associations indicating that metabolic changes in the serum are reflected in the follicular fluid, potentially affecting oocyte quality, irrespective of the patients BMI. For ethical reasons, this study only focused on women already in need of artificial reproductive treatment. From a metabolic point of view, we consider this cohort as a representative sample of all women of reproductive age. STUDY FUNDING This study was funded by the special research fund, university of Antwerp (BOF UA). None of the authors has any conflict of interest to declare.

Ovarian Follicular Dynamics. A review with Emphasis on the Bovine Species. Part II: Antral Development, Exogenous Influence and Future Prospects

During an oestrous cycle, a cohort of antral follicles develops into--depending on the species--one or more ovulatory follicles. The bovine oestrous cycle is characterized by two to three such cohorts or growth waves, only the last of which will result in an ovulation. In every growth wave, several antral follicles are recruited for development. Recruited follicles are subjected to a selection process, whereby ever decreasing levels of follicle stimulating hormone (FSH) are available to the FSH dependent follicles. In the cow, a single follicle from the cohort will acquire dominance. The ability of the dominant follicle to prosper under basic FSH levels is ascribed to a transition in hormone dependency from FSH to luteinizing hormone. The exact follicle selection mechanism remains, however, to be elucidated. The beginning of this article focuses on the recruitment, selection and dominance phases in antral follicle development. Subsequently, the conditions leading to successful maturation and ovulation are discussed. The next section expounds upon the mechanisms for exogenous modulation of follicular dynamics with the aim of superovulation/superstimulation, and finally prospective future research directions are sketched.

Ovarian Follicular Dynamics: A Review with Emphasis on the Bovine Species. Part I: Folliculogenesis and Pre-antral Follicle Development

Recent scientific research into pre-antral follicular dynamics has resulted in the discovery of a wide range of hormones and local factors that influence primordial follicle activation and contribute to follicular development. The putative role of several of these mediators in the follicle growth process has been elucidated by genetic and molecular investigations. Crucial questions, such as the mechanism for primordial follicle initiation and the interplay between oocyte and granulosa cells in this process, remain however unresolved. This review article commences with a description of the embryogenesis of the ovary and follicles. Next, the different stages in the development from primordial to pre-antral follicle are discussed. Thereafter, a short overview of the various in vitro models for the study of follicular dynamics is presented. Finally, an in-depth discussion of pre-antral follicle development engages in the current hypotheses regarding primordial follicle activation, and the role of gonadotrophins and angiogenesis.

The consequences of metabolic changes in high-yielding dairy cows on oocyte and embryo quality

Unsatisfactory reproductive performance in dairy cows, such as reduced conception rates, in addition to an increased incidence of early embryonic mortality, is reported worldwide and has been associated with a period of negative energy balance (NEB) early post partum. Typically, NEB is associated with biochemical changes such as high non-esterified fatty acid (NEFA), high β-hydroxybutyrate (β-OHB) and low glucose concentrations. The concentrations of these and other metabolites in the follicular fluid (FF) of high-yielding dairy cows during NEB were determined and extensively analyzed, and then were replicated in in vitro maturation models to investigate their effect on oocyte quality. The results showed that typical metabolic changes during NEB are well reflected in the FF of the dominant follicle. However, the oocyte seems to be relatively isolated from extremely elevated NEFA or very low glucose concentrations in the blood. Nevertheless, the in vitro maturation models revealed that NEB-associated high NEFA and low glucose levels in the FF are indeed toxic to the oocyte, resulting in deficient oocyte maturation and developmental competence. Induced apoptosis and necrosis in the cumulus cells was particularly obvious. Furthermore, maturation in saturated free fatty acid-rich media had a carry-over effect on embryo quality, leading to reduced cryotolerance of day 7 embryos. Only β-OHB showed an additive toxic effect in moderately hypoglycemic maturation conditions. These in vitro maturation models, based on in vivo observations, suggest that a period of NEB may hamper the fertility of high-yielding dairy cows through increased NEFA and decreased glucose concentrations in the FF directly affecting oocyte quality. In addition to oocyte quality, these results also demonstrate that embryo quality is reduced following an NEB episode. This important observation may be linked to the typical diet provided to stimulate milk yield, or to physiological adaptations sustaining the high milk production. Research into this phenomenon is ongoing.

Noninvasive bovine oocyte quality assessment: possibilities of a single oocyte culture

Although bovine embryos are routinely produced in vitro for several decades, there still exists a critical need for techniques to accurately predict the oocytes developmental competence in a noninvasive way, before the in vitro embryo production procedure. In this review, several noninvasive methods to evaluate oocyte quality are discussed, such as morphological assessment of the cumulus oocyte complex and the use of brilliant cresyl blue. Because an individual oocyte and embryo culture method can possibly generate additional insights into the factors that determine oocyte quality, the second part of this review summarizes the state of the art of bovine single oocyte culture. The optimization of individual in vitro embryo production can obviously accelerate the quest for better noninvasive oocyte quality markers, because more information about the oocytes requirements and intrinsic quality will be revealed. Although each step of in vitro culture has to be re-examined in light of the hampered production of single embryos, the reward at the end will be substantial. Individual scored oocytes will be traceable along the in vitro embryo production procedure and the final blastocyst outcome can be linked to the original oocyte quality and follicular environment without the bias caused by simultaneously developing embryos.

Effects of ovum pick-up frequency and FSH stimulation: a retrospective study on seven years of beef cattle in vitro embryo production.

The aim of this retrospective study was to compare the number of follicles, cumulus oocyte complexes (COCs) and cultured In Vitro Produced (IVP) embryos obtained from 1396 non-stimulated Ovum Pick-up (OPU) sessions on 81 donor animals in a twice weekly OPU scheme. Results were obtained from 640 sessions following FSH-LH superstimulation, on 112 donors subjected to OPU once every 2 weeks. The stimulation protocol started with the insertion of an ear implant containing 3 mg norgestomet (Crestar, Intervet, Belgium) 8 days before puncture (day -8). The dominant follicle was ablated by ultrasound-guided follicle puncture on day -6. On day -3 and day -2, cows were injected with FSH (Ovagen, ICP) twice daily (8 am to 8 pm), i.e. a total dose of 160 mug FSH and 40 mug LG per donor per stimulation cycle. Animals were punctured 48 h after the last FSH injection (day 0). Progesterone implants were removed the next day. Stimulated donor cows were treated with this protocol at 14-day intervals. Follicles were visualized with a Dynamic Imaging ultrasound scanner, equipped with a 6.5 MHz sectorial probe. Follicles were punctured with 55 cm long, 18 gauge needles at an aspiration pressure corresponding to a flow rate of 15 ml/min. Cumulus oocyte complexes were recovered and processed in a routine IVF set-up. Results demonstrate that, expressed per session, FSH stimulation prior to OPU increases production efficiency with significantly more follicles punctured and oocytes retrieved. However, when overall results during comparable 2-week periods are considered (four non-stimulated sessions vs one stimulated), more follicles are punctured and more oocytes are retrieved using the non-stimulated protocol. No significant differences in the number of cultured embryos could be detected, indicating that FSH/LH stimulation prior to OPU might have a positive effect on in vitro oocyte developmental competence as more embryos are cultured with less, presumably better-quality, oocytes.

Single in vitro bovine embryo production: Coculture with autologous cumulus cells, developmental competence, embryo quality and gene expression profiles

Studies concerning oocyte quality markers, oocyte/embryo metabolism or commercial OPU settings treating donors with low oocyte yields, indicate a need for optimization of IVP protocols to culture single oocytes to the blastocyst stage. However, culture conditions for single oocyte usually impair development, although previous research showed that single oocyte culture on a monolayer of cumulus cells can lead to similar developmental competence than group oocyte culture. Aiming to develop a fully single IVP procedure, Experiment 1 and 2 revealed that individual maturation, fertilization and culture in 20 μL droplets, using a monolayer of heterologous (SSSm, Exp 1) or autologous cumulus cells in coculture (SSSa, Exp 2), resulted in 23.9% and 15.1% of blastocysts 8 days p.i., respectively, which is significantly less compared to regular group IVP (GGGc, 33.5% (Exp 1) and 26.2% (Exp 2), respectively). In a third Experiment, day 7 p.i. blastocyst quality was analyzed in four treatment groups: regular group IVP (GGGc), group IVP with coculture (GGGm), in group produced zygotes, singly cultured on a heterologous cumulus cell monolayer (GGSm) and individually matured and fertilized zygotes, singly cultured on a monolayer (SSSm). Mean cell number and apoptotic cell index, were similar for all treatment groups. Moreover, mRNA abundance relative to H2AFZ was equal for 9 qualitatively linked genes (TP53, BAX, SHC1 SHC, IGF2R, PTGS2, AKR1B1, PLAC8, SLC2A1, and MNSOD). Only GPX1, involved in detoxification and mtDNA protection to oxidative stress, was significantly downregulated (ANOVA, P < 0.05) in singly produced blastocysts (SSSm), compared to the other treatments. In conclusion, a valuable individual IVP system was established and autologous cumulus cells in coculture showed to partly neutralize hampered individual culture conditions. Additionally, to our knowledge this is the first report in which blastocyst quality, in terms of cell number, apoptosis and gene expression, of singly produced embryos was investigated and shown to be similar to in group produced embryos, implicating that the single IVP system can be applied as a tool in oocyte and embryo quality studies.