P.J. Broadbent

Epigenetic change in IGF2R is associated with fetal overgrowth after sheep embryo culture

Manipulation or non-physiological embryo culture environments can lead to defective fetal programming in livestock. Our demonstration of reduced fetal methylation and expression of ovine IGF2R suggests pre-implantation embryo procedures may be vulnerable to epigenetic alterations in imprinted genes. This highlights the potential benefits of epigenetic diagnostic screening in developing embryo procedures.

Fatty acid composition of lipids in immature cattle, pig and sheep oocytes with intact zona pellucida

Cattle, pig and sheep oocytes isolated from healthy cumulus-oocyte complexes were pooled, within species, to provide samples of immature denuded oocytes with intact zona pellucida (n = 1000 per sample) for determination of fatty acid mass and composition in total lipid, constituent phospholipid and triglyceride. Acyl-containing lipid extracts, transmethylated in the presence of a reference penta-decaenoic acid (15:0), yielded fatty acid methyl esters which were analysed by gas chromatograph. Mean (+/- SEM) fatty acid content in samples of pig oocytes (161 +/- 18 micrograms per 1000 oocytes) was greater than that in cattle (63 +/- 6 micrograms; P < 0.01) and sheep oocytes (89 +/- 7 micrograms; P < 0.05). Of 24 fatty acids detected, palmitic (16:0; 25-35%, w/w), stearic (18:0; 14-16%) and oleic (18:1n-9; 22-26%) acids were most prominent in all three species. Saturated fatty acids (mean = 45-55%, w/w) were more abundant than mono- (27-34%) or polyunsaturates (11-21%). Fatty acids of the n-6 series, notably linoleic (18:2n-6; 5-8%, w/w) and arachidonic acid (20:4n-6; 1-3%), were the most abundant polyunsaturates. Phospholipid consistently accounted for a quarter of all fatty acids in the three species, but ruminant oocytes had a lower complement of polyunsaturates (14-19%, w/w) in this fraction than pig oocytes (34%, w/w) which, for example, had a three- to fourfold greater linoleic acid content. An estimated 74 ng of fatty acid was sequestered in the triglyceride fraction of individual pig oocytes compared with 23-25 ng in ruminant oocytes (P < 0.01). It is concluded that the greater fatty acid content of pig oocytes is primarily due to more abundant triglyceride reserves. Furthermore, this species-specific difference, and that in respect of polyunsaturated fatty acid reserves, may underlie the contrasting chilling, culture and cryopreservation sensitivities of embryos derived from pig and ruminant (cattle, sheep) oocytes.

In vivo oocyte recovery and in vitro embryo production from bovine donors aspirated at different frequencies or following FSH treatment.

The effects of frequency of follicular aspiration and treatment of donor cattle with FSH on in vivo oocyte recovery and in vitro embryo production were studied. Simmental heifers (n = 24) formed 8 replicates of 3 treatments in which oocyte donors were aspirated 1) once a week, 2) twice a week, or 3) once a week following treatment with FSH for 3 d prior to aspiration. Oocytes were graded, washed, matured for 20 to 24 h and then inseminated with frozen/thawed semen from a single sire, followed by co-culture on granulosa cell layers. Embryo development was observed until Day 7 after insemination. Significantly fewer follicles per heifer per week were counted (14.7+/-2.3 vs. 27.4+/-3.1 vs. 23.1+/-2.8) and aspirated (12.0+/-2.0 vs. 21.8+/-2.7 vs. 20.1+/-2.6) in heifers on the once-weekly than twice-weekly aspiration treatment (P<0.01) or on the once-weekly aspiration after FSH treatment (P<0.05). There were no significant differences between treatments in the total number of oocytes recovered per week (5.6+/-1.2 vs. 8.9+/-1.5 vs. 6.1+/-1.2), but significantly more oocytes per heifer per week recovered from animals treated with FSH were graded Category 1 (2.8+/-0.4), i.e., >4 layers good cumulus with a clear, even cytoplasm, than from animals aspirated once (0.9+/-0.2; P<0.01) or twice a week (1.5+/-0.3; P<0.05). The number of transferable morulae plus blastocysts produced per heifer per week was higher from animals aspirated twice a week (2.4+/-0.4; P<0.05) or once a week following FSH treatment (2.1+/-0.4; P<0.05) than from animals aspirated once a week without FSH treatment (1.0+/-0.3). In conclusion, FSH treatment of bovine oocyte donors aspirated once a week enabled a similar number of transferable embryos to be produced per donor week as aspiration twice a week without FSH treatment. These 2 treatments produced twice as many transferable embryos per donor week as aspiration once a week without FSH treatment.

In vivo oocyte recovery and in vitro embryo production from bovine oocyte donors treated with progestagen, oestradiol and FSH

The effect of treatment of donor cattle with progestagen and oestradiol or FSH on in vivo oocyte recovery and in vitro embryo production was studied. Forty-eight beefxFriesian cows formed eight replicates of six treatments in a 2 (no steroid versus steroid)x3 (none, single or multiple dose(s) of FSH) factorial design in which follicles were aspirated once weekly for 3 weeks. Oocytes were graded, washed, matured for 20-24h and then inseminated with frozen/thawed semen from a single sire followed by coculture on granulosa cell monolayers. Treatment with steroid had no significant effect on any follicular, oocyte or embryo production variate other than to reduce the number (P<0.05) and the diameter of large follicles>10mm (P<0.01) present at aspiration. FSH increased numbers of medium (6-10mm) and large follicles (P<0.01) and there was a corresponding decrease in the number of small follicles (2-5mm; P<0. 01). The total number of follicles at aspiration increased from 17. 7+/-1.60 for animals not treated with FSH to 23.6+/-1.97 following multiple dose treatment with FSH (P<0.05). Significantly, more follicles were aspirated following FSH treatment (no FSH 9.7+/-1.09, single dose FSH 13.6+/-1.30, multiple dose FSH 17.3+/-1.52; P<0.05) and numbers of oocytes recovered per cow per week increased (no FSH 4.1+/-0.76, single dose FSH 5.3+/-0.87, multiple dose FSH 5.9+/-0. 94) but the differences were not significant. Significantly, more good oocytes (Category 1) were recovered from animals treated with FSH (P<0.05). There was no overall significant effect of FSH on embryo production rate or the total number of transferable embryos produced but the number of transferable embryos was highest following administration of multiple doses of FSH. In conclusion, progestagen plus oestradiol 17beta treatment did not affect follicle, oocyte and embryo production of oocyte donors aspirated once per week. FSH treatment, however, significantly increased the number of follicles aspirated and Category 1 oocytes recovered. Multiple dose administration of FSH resulted in the production of the highest number of transferable embryos but this effect was not significant.

Effect of frequency of follicle aspiration on oocyte yield and subsequent superovulatory response in cattle.

The effect of frequency of transvaginal follicular aspiration on oocyte yield and subsequent superovulatory response was studied in 2 experiments. In Experiment 1, 32 primiparous Hereford x Friesian cows were assigned to 4 treatments (n = 8 per treatment). Oocyte recovery was carried out once a week for 12, 8, 4 or 0 (control) wk. Embryo recovery for all animals was 7 wk after the completion of the aspiration schedules. In Experiment 2, the effects of oocyte recovery once or twice a week (n = 8 per treatment; control n = 18) for 12 wk and response to superovulation 4 wk after the last aspiration were compared using nulliparous purebred Simmental heifers. Increasing the period of once weekly aspirations from 4 to 12 wk (Experiment 1) did not affect the number of follicles observed per session (mean +/- SEM; 10.0 +/- 0.82) or aspirated (7.8 +/- 0.71), but the recovery rate of oocytes from follicles aspirated was greater for donors aspirated for either 4 or 8 wk than for 12 wk (32.3 +/- 3.73 vs 28.4 +/- 2.61 vs 20.1 +/- 2.13 %; P < 0.05). Following the last aspiration and prior to commencing superovulatory procedures, estrus or estrous activity was observed in 7 8 , 8 8 , 7 8 and 6 8 of the animals aspirated over 12, 8, 4 or 0 wk, respectively. Subsequent superovulatory responses and in vivo embryo recoveries were similar for all aspiration treatments and for control animals. Changing the frequency of oocyte recovery from once to twice weekly (Experiment 2) did not affect the numbers of follicles observed (9.1 +/- 0.63 vs 8.3 +/- 0.85), follicles aspirated (5.9 +/- 0.56 vs 6.2 +/- 0.69), oocytes recovered (1.7 +/- 0.27 vs 1.9 +/- 2.0) per session or the oocyte recovery rate (29.4 +/- 2.4 vs 30.4 +/- 2.4 %); nor was there any effect of frequency of aspiration on subsequent superovulatory response and embryo recovery. In conclusion, increasing the period of aspiration from 4 to 12 wk and the frequency from once to twice a week over 12 wk did not reduce the number of follicles observed or aspirated, or number of oocytes recovered per donor per session. Subsequent estrous cyclicity and responses to superovulation were unaffected by the periods or frequencies of oocyte recovery examined here.

Short-term culture of ovine embryos modifies fetal myogenesis

Certain reproductive techniques culture embryos in vitro; however, little is known about the impact of culture on fetal growth. Coculture of day 1 ovine zygotes on a bovine granulosa cell layer to blastocysts followed by transfer to synchronous recipients increased fetal weight by 11 and 40% at days 61 and 125, respectively, compared with the transfer of in vivo-produced blastocysts. Plantaris muscle weights were increased by 40% in cultured fetuses at day 125. Examination of myogenesis in plantaris muscle showed that primary fiber number was unchanged at day 61 by culture but that primary fiber area was increased significantly by 15 and 25% at days 61 and 125, respectively; secondary fiber area was increased by 40% at day 125 by culture, and the ratio of secondary to primary fiber numbers was 18-20% greater in the cultured groups compared with the controls at days 61 and 125. The results show that coculture of preimplantation embryos may alter myogenic programming. These changes may contribute to the abnormally large muscles observed in oversize fetuses.Certain reproductive techniques culture embryos in vitro; however, little is known about the impact of culture on fetal growth. Coculture of day 1ovine zygotes on a bovine granulosa cell layer to blastocysts followed by transfer to synchronous recipients increased fetal weight by 11 and 40% at days 61 and 125, respectively, compared with the transfer of in vivo-produced blastocysts. Plantaris muscle weights were increased by 40% in cultured fetuses at day 125. Examination of myogenesis in plantaris muscle showed that primary fiber number was unchanged at day 61 by culture but that primary fiber area was increased significantly by 15 and 25% at days 61 and 125, respectively; secondary fiber area was increased by 40% at day 125 by culture, and the ratio of secondary to primary fiber numbers was 18-20% greater in the cultured groups compared with the controls at days 61 and 125. The results show that coculture of preimplantation embryos may alter myogenic programming. These changes may contribute to the abnormally large muscles observed in oversize fetuses.

The response of bovine granulosa cells to different gonadotrophins in culture.

Previous studies with bovine granulosa cells cultured in vitro indicated that follicle-stimulating hormone (FSH) stimulated differentiation and progesterone production of granulosa cells in a dose-dependent manner, this was due mainly to an increase in the number of differentiated cells. The objectives of the present study were to investigate (1) whether the response of bovine granulosa cells in culture to luteinising hormone (LH) and equine chorionic gonadotrophin (eCG) was similar to the response to FSH, and (2) whether granulosa cells derived from different cattle breeds responded similarly to gonadotrophin stimulation. Pairs of ovaries were recovered postmortem from Charolais (38) and Hereford (41) crossbred post-pubertal heifers, and granulosa cells were aspirated from 5-8 mm follicles. In two simultaneous experiments, granulosa cells (2-3 x 10(5) viable cells) were cultured with different gonadotrophins (oFSH or oLH in Experiment 1; oFSH or eCG in Experiment 2). Cell culture was for 4 days at 37 degrees C in a humidified atmosphere of 5% CO2 in air in 1 ml of serum-free culture medium. Progesterone production, total DNA and the protein content of granulosa cells on Day 4 of culture were determined. Log10 data were analyzed by analysis of variance and multiple linear regression. In Experiment 1, both FSH and LH stimulated progesterone production (ng microgram-1 DNA) and protein content (microgram microgram-1 DNA) of granulosa cells in a dose-dependent manner (P < 0.01). The relative potencies of FSH to LH (milli micron/milli micron) were found not to be different from unity. In Experiment 2, progesterone production and the protein content of granulosa cells were stimulated by both FSH and eCG in a dose-dependent manner (P < 0.001). The progesterone response curves (log/log) were linear up to 1-10 milli microns FSH and 1-10 iu eCG, and were Y = 1.67 + 0.093 FSH and Y = 1.60 + 0.091 eCG for progesterone production. Calculated on a milli micron/iu basis, FSH was found to be 5.8 times more potent than eCG (P < 0.05) in terms of stimulating progesterone production. Granulosa cells derived from Hereford crosses were more sensitive (P < 0.001) than those from Charolais crosses to gonadotrophin stimulation (31 and 42 times for FSH and eCG, respectively, in terms of progesterone production, and 4.8 and 3.1 times for FSH and eCG, respectively, in terms of protein content). The response curves for both FSH and eCG were similar within each breed. The slopes of the progesterone response curves, and the protein responses were similar for all the gonadotrophins. In conclusion, these results imply that FSH; LH and eCG have similar effects on the differentiation and progesterone production of bovine granulosa cells from 5-8 mm follicles cultured in vitro. Furthermore, granulosa cells from different breeds cultured in vitro had different sensitivities to gonadotrophin stimulation.

Norgestomet implants, plasma progesterone concentrations and embryo transfer pregnancy rates in cattle

A study was undertaken to test the hypothesis that supplementation with exogenous progestagen at the time of embryo transfer would enhance pregnancy rates in recipients. Twohundred- and-seventy-two oestrus-synchronised crossbred heifer and cow recipients received 200 grade 1 and 72 grade 2 Simmental embryos transferred non-surgically. Heparinised blood samples were taken on day 6 and day 7 (oestrus = day 0) for the assessment of the endogenous plasma progesterone concentration. Half the recipients received an ear implant impregnated with 3 mg norgestomet on the day of embryo transfer. The pregnancy rates were 51.9 and 49.6 per cent for the norgestomet-treated and control groups, respectively. The pregnancy rate for grade 1 embryos was 56.0 per cent and for grade 2 embryos 36.1 per cent (P<0.01). The breed of recipient, weekday of transfer, operator and condition score had no effect on pregnancy rate. The maiden heifers had a higher pregnancy rate (54.2 per cent) than the cows (46.2 per cent). The mean plasma progesterone concentrations of the pregnant and non-pregnant groups on day 6 were 6.7 ng/ml and 6.6 ng/ml, respectively, and 7.6 ng/ml in both groups on day 7.

Naloxone evokes a nutritionally dependent LH response in post partum beef cows but not in mid-luteal phase maiden heifers

Data from two experiments are reported which test the hypothesis that nutrient and/or dry-matter intake and body condition may interact to modify hypothalamic opioidergic activity and thus influence the pulsatile release of LH during the early post-partum period and during the oestrous cycle. Experiment 1 involved 16 multiparous, twin-suckling beef cows, and was a 2 × 2 × 2 factorial design in which the factors were level of post-partum energy intake (80 v. 130 M) metabolizable energy (ME) per day), the digestible undegradable protein (DUP) content of the post-partum diet (14 v. 31 g/kg dry matter), and treatment with either 200 mg or 400 mg naloxone hydrochloride. Blood samples were collected at 15-min intervals for 4h at weeks 4 and 7 post partum. Naloxone was administered intravenously after the eighth sample. Experiment 2 involved 16 cyclic maiden heifers and was also arranged in a factorial manner, with two levels of body condition at the start of the experimental period (2·50 and 3·16 units) and two levels of energy intake thereafter (40 and 80 MJ ME per day). Seven blood samples were collected at 15-min intervals on 4 days consecutively during the mid-luteal phase of the oestrous cycle. On the first 2 of these 4 days naloxone was administered, whilst on the last 2 days a gonadotropin-releasing hormone agonist (buserelin; GnRH) was administered, both after the fourth sample. Plasma from both experiments was assayed for LH and prolactin (Prl). In experiment 1, cows on 130 MJ ME per day returned to oestrus and ovulated earlier than cows on 80 MJ ME per day (44·5 v. 55·0 days; s.e.d. = 3·93; P v. 1·12; P v. 1·68; P Suckled cows given a high energy diet during the early post-partum period can overcome the opioid mediated block on LH release and resume oestrous cycles earlier than cows given a low energy diet. LH would appear to be inhibited by a non-opioid mechanism in mid-luteal phase heifers. Total pituitary reserves ofLH may be influenced by the animals nutritional status.

Ultrasound-monitored ovarian responses in normal and superovulated cattle given exogenous progesterone at different stages of the oestrous cycle

Abstract In two experiments with female cattle, responses to synchronisation and superovulation were monitored by transrectal ultrasonography and embryo recovery. Each experiment had both a synchronisation phase to establish a reference oestrus and a superovulatory phase with the oestrous cycle controlled by exogenous progesterone commencing at two specific times. The reference oestrus was controlled using a progesterone releasing intravaginal device (PRID) applied for 12 days with prostaglandin F2α given 1 day before removal. Experiment 1 had two treatments which differed by the absence (A) or presence (P) of a 10mg oestradiol benzoate capsule on the PRID, while in Experiment 2 all animals were on treatment P. In the superovulatory phase of both experiments treatment P commenced on Day 7 (PRID 7 treatment) or Day 14 (PRID 14 treatment) of the oestrous cycle (oestrus designated Day 0). Superovulation, using equine chorionic gonadotrophin in Experiment 1 and oFSH in Experiment 2, commenced 3 days before PRID removal. Treatment P caused rapid regression of the dominant follicle and corpus luteum (CL) irrespective of when treatment commenced. A second wave of follicular growth was detected after 6–8 days and the dominant follicle grew at 1.1 mm day−1 in the 7 days before oestrus. In contrast, in treatment A of Experiment 1, the dominant follicle either grew slowly and eventually ovulated for cows in the mid-luteal phase, or the dominant follicle regressed and a second wave follicle ovulated if cows were early luteal at PRID insertion. In the superovulatory phase of both experiments the dominant follicle of PRID 7 animals increased in size and then regressed, but in PRID 14 cows, the dominant follicle was regressing before PRID insertion. During superovulation, the number of 7–10 mm follicles was significantly (P