Selection of developmentally competent buffalo oocytes by brilliant cresyl blue staining before IVM

The brilliant cresyl blue (BCB) test determines the activity of glucose-6-phosphate dehydrogenase (G6PDH); the activity of this enzyme is greatest in growing oocytes, but it declines as oocytes mature. The objective was to develop and evaluate this test for assessing development of buffalo oocytes (to select developmentally competent oocytes for increased in vitro embryo production). Oocytes were exposed to BCB stain diluted in mDPBS (DPBS with 0.4% BSA) for 90 min at 38.5 degrees C in a humidified air atmosphere; those with or without blue coloration of the cytoplasm were designated as BCB+ and BCB-, respectively. In Experiment 1, oocytes were exposed to 13, 26, or 39 microM BCB. There were fewer BCB+ oocytes after exposure to 13 microM BCB (10%) than after exposure to 26 or 39 microM BCB (57.2 and 61.8%; P<0.05), but there was no significant difference among treatments for blastocyst production rate. In Experiment 2, the diameter of BCB+ oocytes (144.4+/-4.2 microm; mean+/-S.E.M.) was higher (P<0.05) than that of BCB- oocytes (136.8+/-4.6 microm). In Experiment 3, oocytes were allocated into three groups: control (immediately cultured); holding-control (kept in mDPBS for 90 min before cultured); and treatment-incubation (incubated with 26 microM BCB). After IVM, oocytes were fertilized in vitro and cultured on an oviductal monolayer. The nuclear maturation rate was higher (P<0.05) in BCB+ (86.2%), control (83.4%) and holding-control (82.6%) oocytes than BCB- (59.2%) oocytes. The BCB+ oocytes yielded more blastocysts than control or holding-control oocytes (33.4, 20.2, and 21.0%, P<0.05); blastocyst development was lowest in BCB- oocytes (5.2%). In conclusion, staining of buffalo oocytes with BCB before IVM may be used to select developmentally competent oocytes for increased in vitro embryo production.     

Selection of prepubertal goat oocytes using the brilliant cresyl blue test

Brilliant cresyl blue stain allows us to determine the activity of glucose-6-phosphate dehydrogenase (G6PD), an enzyme synthesized in growing oocytes but with decreased activity in oocytes that have finished their growth phase. The objective of this study was to evaluate the utility of the brilliant cresyl blue (BCB) test as an indirect measure of oocyte growth, in order to select competent prepubertal goat oocytes for in vitro embryo production. Oocytes were exposed to BCB diluted in PBS and were classified according to their cytoplasm coloration: oocytes with a blue cytoplasm or grown oocytes (BCB+) and oocytes without a blue cytoplasm or growing oocytes (BCB-). After exposure to different BCB concentrations, we evaluated in vitro maturation (IVM), in vitro fertilization (IVF) and embryo development parameters. We defined matured oocytes as those oocytes that reached the metaphase II (MII) stage after being cultured for 27 h. Oocytes showing two pronuclei at 20 h post-insemination were classified as normally fertilized oocytes. We assessed embryo development 8 days post-insemination and recorded the percentage of total embryos, morale and blastocysts. The mean percentage of BCB+ oocytes was 29.4%. Mean diameter of BCB+ oocytes (136.6+/-6.3 microm) was higher (P < 0.001) than that of BCB- oocytes (125.5+/-10.2 microm). The percentage of BCB+ oocytes reaching the MII stage (81.4%) was higher (P < 0.05) than that of BCB- (52.5%) and control oocytes (72.4%). Normal fertilization rate of BCB+ oocytes was also higher (23.5%) than that of BCB- (8.2%; P < 0.0001) and control oocytes (11.9%; P < 0.05). The percentages of total embryos undergoing development to >8-cell and the morula plus blastocyst stages were higher (P < 0.05) in the group of BCB+ (41.3 and 12.0%, respectively) than in BCB- oocytes (21.3 and 3.6%, respectively). In conclusion, the BCB test is a useful way to select more competent prepubertal goat oocytes for in vitro embryo production.     

Effects of oocyte quality, semen donor and embryo co-culture system on the efficiency of blastocyst production in goats

The aim of the study was to determine whether the selection of immature oocytes by a combination of cumulus-oocyte-complexes (COCs) morphology and staining with brilliant cresyl blue (BCB) would be helpful in selecting developmentally competent oocytes, and thereby increase the efficiency of blastocyst production from ovarian oocytes of FSH-primed, adult goats. In a second experiment the interaction between oocyte quality and semen donor was assessed. In a third experiment the usefulness of Vero cells for co-culture with goat embryos was investigated. In the pool of morphologically normal COCs recovered from ovaries following slicing (21.9+/-11.0), the mean rate of COCs classified as BCB+ was 85.6%, and the BCB- was approximately 11%. Oocytes classified as grade 1 and BCB+ exhibited the highest developmental competence (P<0.001) after in vitro maturation and fertilization compared with oocytes of grade 1 BCB- and grade 2 BCB+ or BCB-. There were no significant differences in developmental competence in grade 2 oocytes, regardless of BCB coloration. No significant differences in embryo cleavage and blastocyst formation rates among three bucks were observed when morphologically normal, BCB+ oocytes were used. For all tested bucks, differences in embryo production efficiency were related only to the oocyte quality. Similar blastocyst rates were developed from embryos co-cultured with goat oviduct epithelial cells (34.3%) and with Vero cells (33.3%). These results show that the most important criterion for selection of COCs before maturation is the visual assessment of morphological features. Staining with BCB of COCs recovered from adult goats does not enhance efficiency of selection of developmentally competent oocytes for IVF.     

Supplementation with cysteamine during maturation and embryo culture on embryo development of prepubertal goat oocytes selected by the brilliant cresyl blue test

Our previous studies have shown that the addition of 100 mircroM cysteamine to the in vitro maturation (IVM) medium increased the embryo development of prepubertal goat oocytes. The aim of the present study was to evaluate the effect of adding different concentrations of cysteamine to the IVM medium and to the in vitro embryo culture medium (IVC) on the embryo development of prepubertal goat oocytes selected by the brilliant cresyl blue (BCB) test. Oocytes were exposed to BCB and classified as: oocytes with a blue cytoplasm or grown oocytes (BCB+) or oocytes without blue cytoplasm or growing oocytes (BCB-). In Experiment 1, oocytes were matured in a conventional IVM medium supplemented with 100 microM, 200 microM or 400 microM cysteamine. In Experiment 2, oocytes were matured with 400 microM cysteamine and following in vitro fertilization (IVF) were cultured in SOF medium supplemented with 50 microM and 100 microM cysteamine. In Experiment 1, BCB+ oocytes matured with 100 microM and 200 microM cysteamine showed higher normal fertilization and embryo development rates than BCB- oocytes. Oocytes matured with 400 microM cysteamine did not present these differences between BCB+ and BCB- oocytes. In Experiment 2, the addition of 50 microM and 100 microM cysteamine to culture medium did not affect the proportion of total embryos obtained from BCB+ oocytes (35.89% and 38.29%, respectively) but was significantly different in BCB- oocytes (34.23% and 29.04%, respectively, P < 0.05). In conclusion, the addition of 400 microM cysteamine to the IVM improved normal fertilization and embryo development of BCB- oocytes at the same rates as those obtained from BCB+ oocytes. The proportions of morulae plus blastocyst development were not affected by the treatments.     

Oocytes selected using BCB staining enhance nuclear reprogramming and the in vivo development of SCNT embryos in cattle

The selection of good quality oocytes is crucial for in vitro fertilization and somatic cloning. Brilliant cresyl blue (BCB) staining has been used for selection of oocytes from several mammalian species. However, the effects of differential oocyte selection by BCB staining on nuclear reprogramming and in vivo development of SCNT embryos are not well understood. Immature compact cumulus-oocyte complexes (COCs) were divided into control (not exposed to BCB), BCB+ (blue cytoplasm) and BCB- (colorless cytoplasm) groups. We found that BCB+ oocytes yielded a significantly higher somatic cell nuclear transfer (SCNT) blastocyst rate and full term development rate of bovine SCNT embryos than the BCB- and control oocytes. BCB+ embryos (embryos developed from BCB+ oocytes) showed increased acetylation levels of histone H3 at K9 and K18 (AcH3K9, AcH3K18), and methylation levels of histone H3 at K4 (H3K4me2) than BCB- embryos (embryos developed from BCB- oocytes) at the two-cell stage. Furthermore, BCB+ embryos generated more total cells, trophectoderm (TE) cells, and inner cell mass (ICM) cells, and fewer apoptotic cells than BCB- embryos. The expression of SOX2, CDX2, and anti-apoptotic microRNA-21 were up-regulated in the BCB+ blastocysts compared with BCB- blastocysts, whereas the expression of pro-apoptotic gene Bax was down-regulated in BCB+ blastocysts. These results strongly suggest that BCB+ oocytes have a higher nuclear reprogramming capacity, and that BCB staining can be used to select developmentally competent oocytes for nuclear transfer.     

Effect of the addition of glutathione and glucose to the culture medium on embryo development of IVM-IVF prepubertal goat oocytes

Our previous studies have shown that larger and more competent oocytes can be selected using the brilliant cresyl blue (BCB) test. The objective of this study was to assess, in BCB-selected oocytes, the effect on the embryo development of prepubertal goat oocytes of the addition to in vitro culture (IVC) medium of either glutathione (GSH) alone or GSH in combination with glucose. Oocytes were exposed to 26 mM BCB and were classified as: oocytes with a blue cytoplasm or grown oocytes (BCB+) and oocyteswithout blue cytoplasm or growing oocytes (BCB-). Oocytes were matured in TCM-199 with 100 microM cysteamine. Presumptive zygotes were cultured in synthetic oviductal fluid (SOF) in the presence or absence of 1 mM glutathione (experiment 1) for 7 days (8 days post-insemination, p.i.). In experiment 2 we tested the addition to culture of 2.78 mM glucose at day 5 p.i. BCB+ oocytes showed higher percentages of nuclear maturation than the BCB- and control groups (82.6%, 55.7% and 74.7%, respectively). The percentage of polyspermic oocytes was higher in BCB- than BCB+ oocytes. Supplementation of SOF medium with 1 mM GSH did not affect embryo development but the percentage of total embryos developed after culture was higher in BCB+ oocytes than in BCB- oocytes independently of the GSH supplementation. Glucose, alone or with GSH, added at 5 days p.i. did not affect embryo development. In conclusion, prepubertal goat oocytes were unable to develop beyond the 8-cell stage embryo under the culture conditions in this study.     

Bovine blastocyst development rate in vitro is influenced by selection of oocytes by brillant cresyl blue staining before IVM as indicator for glucose-6-phosphate dehydrogenase activity

The aim of this present study was to increase the efficiency of blastocyst production from cows after in vitro maturation/fertilization (IVM/IVF) by oocyte selection before maturation. Oocytes were selected on the basis of brillant cresyl blue (BCB) staining, used to indicate glucose-6-phosphate dehydrogenase (G6PDH) activity. To re-valuate the hypothesis that growing oocytes are expected to have a high level of active G6PDH, while mature oocytes have low G6PDH activity, cumulus oocyte complexes (COCs) were recovered from slaughterhouse ovaries by slicing the surface of the ovary. Only oocytes with a compact cumulus investment were used. Oocytes were placed into three groups: (1) control--placed immediately into culture; (2) holding control--COCs kept in PBS containing 0.4% BSA for 90 min before placement into culture; and (3) treatment--incubation with BCB for 90 min before culture. Treated oocytes were then divided into BCB- (colorless cytoplasm, increased G6PDH) and BCB+ (colored cytoplasm, low G6PDH) on their ability to metabolize the stain. Activity of G6PDH was determined via measurement of NADP reduction induced by G6P as substrate oxidized by G6PDH in the cytosol of control, BCB- and BCB+ groups; G6PDH activity was significant higher in BCB- COCs than in control and BCB+ COCs. After IVM, oocytes were fertilized in vitro. Embryos were cultured to day 8. The rate of maturation to metaphase II was significantly higher for control and BCB+ oocytes than for BCB- oocytes. The BCB+ oocytes yielded a significantly higher proportion of blastocysts (34.1%) than did control or holding control oocytes (18.3 and 19.2%); and both controls and BCB+ oocytes had significantly higher blastocyst development than did BCB- oocytes (3.9%). These results show that the staining of bovine cumulus oocyte complexes with BCB before in vitro maturation may be used to select developmentally competent oocytes for IVF. In addition, G6PDH activity may be useful as a marker for oocyte quality in future studies on factors affecting developmental competence.     

Selection of developmentally competent oocytes through brilliant cresyl blue stain enhances blastocyst development rate after bovine nuclear transfer

The aim of the present investigation was to study the effect of oocyte selection on the efficiency of bovine nuclear transfer in terms of increased blastocyst production. For this purpose, prior to in vitro maturation (IVM), oocytes were selected for their developmental competence on the basis of glucose-6-phosphate dehydrogenase (G6PDH) activity indicated by brilliant cresyl blue (BCB) staining. It has been hypothesized that growing oocytes have a higher level of active G6PDH in comparison to the mature oocytes. Compact cumulus oocyte complexes (COCs) were recovered from slaughterhouse-collected bovine ovaries and classified either as control group, which were placed immediately into culture without exposure to BCB stain, or treatment group, which were stained with BCB for 90min before culture. Treated oocytes were then divided into BCB- (colourless cytoplasm, increased G6PDH) and BCB+ (coloured cytoplasm, low G6PDH) based on their ability to metabolize the stain. After IVM, oocytes were subjected to nuclear transfer procedure for the production of cloned embryos which were then cultured for a period of 8 days to determine the blastocyst rate. The BCB+ oocytes yielded a significantly higher blastocyst rate (39%) than the control (21%) or BCB- oocytes (4%). These results show that the staining of bovine cumulus-oocyte complexes with BCB before in vitro maturation could be used to select developmentally competent oocytes for nuclear transfer. In addition, G6PDH activity could prove to be a useful marker for determining the oocyte quality in future.     

Developmental competence of prepubertal goat oocytes selected with brilliant cresyl blue and matured with cysteamine supplementation

The aim of this study was to assess the effect of oocyte selection using the brilliant cresyl blue (BCB) test plus the addition of cysteamine to the in vitro maturation (IVM) medium to improve the in vitro embryo development of prepubertal goat oocytes. The oocytes were exposed to 26 microM BCB and classified according to their cytoplasm coloration: BCB+ (oocytes with blue cytoplasm) and BCB- (unstained oocytes). The oocytes were matured in a conventional IVM medium supplemented with cysteamine 100 microM. The control group consisted of oocytes not exposed to BCB and matured without cysteamine. The IVM-oocytes were inseminated and cultured in synthetic oviductal fluid (SOF) for 7 days. The normal fertilisation rate (oocytes showing 2 pronuclei and 1 sperm tail) of BCB+ oocytes (40%) was higher than those of BCB- (21%) and control oocytes (22%). The percentage of morulae plus blastocysts was higher (P < 0.05) in the BCB+ group than in the BCB- group (23.8 vs. 5.1%, respectively). In conclusion, the integration of the BCB test and the addition of cysteamine in the protocol of in vitro embryo production from prepubertal goat oocytes has improved the developmental rates of embryo development.     

Combination of oocyte and zygote selection by brilliant cresyl blue (BCB) test enhanced prediction of developmental potential to the blastocyst in cattle

The cumulus oocyte complexes (COCs) were obtained from local abattoir. After aspiration, the COCs were allotted into four treatments to evaluation of brilliant cresyl blue (BCB) test. Control treatment (C): oocytes were cultured directly (without exposure to BCB) after recovery in in vitro production (IVP) process. Oocyte treatment (OBCB): immediately after aspiration, COCs were incubated in modified Dulbecco's phosphate-buffered saline (mDPBS) supplemented with 26 μM of BCB for 90 min and classified into two classes: oocytes with blue cytoplasm coloration (OBCB+: more competent oocytes) and oocytes without blue cytoplasm coloration (OBCB−: low competent oocytes). Directly after classification, the oocytes were maintained undisrupted in the IVP process. Zygote treatment (ZBCB): After oocyte collection, maturation and fertilization, zygotes were stained with BCB for 10 min and categorized into three ways, according to whether they were highly stained (ZBCB++: low competent zygotes), moderately stained (ZBCB+: moderate competent zygotes) and unstained (ZBCB−: more competent zygotes). Directly after classification, the zygotes were maintained undisrupted in the culture process. Oocyte and zygote treatments (OBCB/ZBCB): COCs were stained with BCB after recovery and classified into two classes (OBCB+ and OBCB−). After fertilization, the zygotes produced from OBCB+ and OBCB− oocytes were further stained with BCB for 10 min and categorized six ways (OBCB+/ZBCB++, OBCB+/ZBCB+, OBCB+/ZBCB−, OBCB−/ZBCB++, OBCB−/ZBCB+ and OBCB−/ZBCB−). Directly after classification, the zygotes were maintained undisrupted in the culture process. The selection rate produced from OBCB treatment (OBCB+; 54.3%) was greater (P < 0.05) than ZBCB treatment (ZBCB−; 44.3%). In addition, the selection rate produced from double application (combination of oocyte and zygote selection) of BCB test (OBCB+/ZBCB−: 28.8%) was less (P < 0.01) than single application of BCB test (ZBCB−: 44.3%or OBCB+: 54.3%). The percentage of blastocyst production from OBCB+ oocytes (35.7%) and ZBCB− zygotes (36.6%) were greater (P < 0.05) than that from C oocytes (25.7%), OBCB− oocytes (16.5%), ZBCB++ (13.5%) and ZBCB+ zygotes (21.3%). However, there were no significant differences (P > 0.05) in the percentages of blastocyst production between OBCB+ oocytes (35.7%) and ZBCB− zygotes (36.6%). The proportion of blastocyst production from double application of BCB test (OBCB+/ZBCB−: 48.0%) was greater (P < 0.05) than that from single application of BCB test (OBCB+: 35.7% or ZBCB−: 36.6%). In conclusion, current results confirmed that combination of oocyte and zygote selection by BCB test enhanced the efficiency of selecting for high quality embryos, compared to the single BCB test.     

Selection of oocytes for in vitro maturation by brilliant cresyl blue staining： a study using the mouse model

Selecting oocytes that are most likely to develop is crucial for in vitro fertilization and animal cloning. Brilliant cresyl blue （BCB） staining has been used for oocyte selection in large animals, but its wider utility needs further evaluation. Mouse oocytes were divided into those stained （BCB＋） and those unstained （BCB-） according to their ooplasm BCB coloration. Chromatin configurations, cumulus cell apoptosis, cytoplasmic maturity and developmental competence were compared between the BCB＋ and BCB- oocytes. The effects of oocyte diameter, sexual maturity and gonadotropin stimulation on the competence of BCB＋ oocytes were also analyzed. In the large- and medium-size groups, BCB＋ oocytes were larger and showed more surrounded nucleoli （SN） chromatin configurations and higher frequencies of early atresia, and they also gained better cytoplasmic maturity （determined as the intracellular GSH level and pattern of mitochondrial distribution） and higher developmental potential after in vitro maturation （IVM） than the BCB-oocytes. Adult mice produced more BCB＋ oocytes with higher competence than the prepubertal mice when not primed with PMSG. PMSG priming increased both proportion and developmental potency of BCB＋ oocytes. The BCB＋ oocytes in the large-size group showed more SN chromatin configurations, better cytoplasmic maturity and higher developmental potential than their counterparts in the medium-size group. It is concluded that BCB staining can be used as an efficient method for oocyte selection, but that the competence of the BCB＋ oocytes may vary with oocyte diameter, animal sexual maturity and gonadotropin stimulation. Taken together, the series of criteria described here would allow for better choices in selecting oocytes for better development.     

Effects of single and double exposure to brilliant cresyl blue on the selection of porcine oocytes for in vitro production of embryos

The aim of this study was to evaluate the effectiveness and toxicity of single and double application of the brilliant cresyl blue (BCB) test on the selection of porcine oocytes as an indirect measure of oocyte growth for in vitro fertilization (IVF) and nuclear transfer. In the first experiment, oocytes were exposed to BCB before and after maturation culture and classified according to their cytoplasmic coloration: blue coloration and colorless. The classified oocytes were fertilized with spermatozoa and then cultured for 7 days. The percentages of maturation to metaphase II in blue oocytes at the start of maturation culture were higher than those of colorless oocytes (68.7-70.1% versus 0.8-3.6%, P < 0.05). However, double application of BCB test before and after maturation culture had a toxic effect on fertilization and embryonic development. No significant differences in the blastocyst formation were found between blue oocytes without double application of BCB test and control oocytes without any application of BCB test, whereas the total cell number per blastocyst from the blue oocytes was higher than that from the control oocytes (48.0 versus 34.2, P < 0.05). In the second experiment, oocytes were exposed to the BCB test before or after maturation culture, and then the matured oocytes were activated to evaluate the ability of parthenogenetic development. The proportion of blastocyst formation of blue oocytes classified after maturation culture was lower than that of blue oocytes classified before maturation culture (10.0% versus 27.0%, P < 0.05). Therefore, double application of the BCB test before and after maturation culture impaired fertilization and embryonic development, whereas a single application before maturation culture was efficient to select oocytes for IVF and nuclear transfer.     

Selection of developmentally competent buffalo oocytes by brilliant cresyl blue staining before IVM

The brilliant cresyl blue (BCB) test determines the activity of glucose-6-phosphate dehydrogenase (G6PDH); the activity of this enzyme is greatest in growing oocytes, but it declines as oocytes mature. The objective was to develop and evaluate this test for assessing development of buffalo oocytes (to select developmentally competent oocytes for increased in vitro embryo production). Oocytes were exposed to BCB stain diluted in mDPBS (DPBS with 0.4% BSA) for 90 min at 38.5 °C in a humidified air atmosphere; those with or without blue coloration of the cytoplasm were designated as BCB+ and BCB−, respectively. In Experiment 1, oocytes were exposed to 13, 26, or 39 μM BCB. There were fewer BCB+ oocytes after exposure to 13 μM BCB (10%) than after exposure to 26 or 39 μM BCB (57.2 and 61.8%; P < 0.05), but there was no significant difference among treatments for blastocyst production rate. In Experiment 2, the diameter of BCB+ oocytes (144.4 ± 4.2 μm; mean ± S.E.M.) was higher (P < 0.05) than that of BCB− oocytes (136.8 ± 4.6 μm). In Experiment 3, oocytes were allocated into three groups: control (immediately cultured); holding-control (kept in mDPBS for 90 min before cultured); and treatment-incubation (incubated with 26 μM BCB). After IVM, oocytes were fertilized in vitro and cultured on an oviductal monolayer. The nuclear maturation rate was higher (P < 0.05) in BCB+ (86.2%), control (83.4%) and holding-control (82.6%) oocytes than BCB− (59.2%) oocytes. The BCB+ oocytes yielded more blastocysts than control or holding-control oocytes (33.4, 20.2, and 21.0%, P < 0.05); blastocyst development was lowest in BCB− oocytes (5.2%). In conclusion, staining of buffalo oocytes with BCB before IVM may be used to select developmentally competent oocytes for increased in vitro embryo production.     

The quality of porcine oocytes is affected by sexual maturity of the donor gilt

Although differences in the quality of oocytes derived from young gilts and adult sows are well documented, evidence concerning gametes of pre-pubertal and cycling gilts is scarce and inconsistent. The aim of this work was to establish whether sexual maturity of gilts affects the quality of their oocytes with the use of the brilliant cresyl blue (BCB) test, oocyte diameter and apoptosis. Ovarian morphology was evaluated, and gonads with corpus luteum or albicans were recognized as originating form cycling gilts (C) and those with follicles as originating form pre-pubertal females (P). Altogether 952 cumulus-oocyte complexes (COCs; group P: 554; group C: 398) were examined, whereas 149 COCs, not subjected to BCB test, served as a control for TUNEL. COCs of proper morphology were evaluated by the BCB test which differentiated two categories of gametes: more competent, BCB+, and less competent BCB- oocytes. The control group comprised oocytes of proper morphology aspirated from ovaries of P and C gilts not subjected to BCB test. Finally five groups of COCs were matured in vitro: 1/P-BCB+, 2/P-BCB-, 3/C-BCB+, 4/ C-BCB- and 5/ control. Significantly more large oocytes (≥ 120 μm), more BCB+ oocytes and more high quality (both BCB+ and ≥ 120 μm) oocytes originated from ovaries of cycling gilts than pre-pubertal gilts (p<0.001). The rate of mature oocytes at the MII stage differed significantly between C-BCB+ (68.5%) and P-BCB+ (32.9%) oocytes. The incidence of apoptosis among BCB-treated oocytes after in vitro maturation was 21.4% and was similar to that observed in control oocytes (17.4%). BCB+ oocytes from cycling gilts showed significantly higher (28.7%) incidence of apoptosis than that of the group P (16.2%). Interestingly, high quality oocytes displayed a similar level of apoptosis regardless of the donor puberty. We demonstrated that C gilts provided more BCB+ oocytes as well as more large oocytes than P gilts, although C-BCB+ oocytes showed higher apoptotic rate. In conclusion, high incidence of apoptosis and a big variation in the diameter of more competent BCB+ oocytes make the BCB test a less effective selection tool than previously reported.     

Developmental competence of porcine oocytes selected by brilliant cresyl blue and matured individually in a chemically defined culture medium

The objective of this study was to investigate the effects of oocyte selection using brilliant cresyl blue (BCB) and culture density during individual in vitro maturation (IVM) on porcine oocyte maturity and subsequent embryo development using a chemically defined medium. Cumulus-oocyte complexes (COCs) were classified as BCB-positive or BCB-negative after exposure to a BCB solution for 90 min. The classified COCs were matured in a group (15 COCs per 100-μL droplet) or individually (1 COC per 1-, 2.5-, 5-, or 10-μL droplet). Meiotic competence, intraoocyte glutathione concentration, and developmental competence after intracytoplasmic sperm injection were monitored. The BCB selected oocytes competent for nuclear and cytoplasmic maturation. Furthermore, meiotic competence for oocytes matured individually in a 5-μL droplet was superior (P < 0.05) to that of oocytes matured in a 1-μL droplet. Also, the culture density in a 5-μL droplet during IVM resulted in a higher (P < 0.05) rate of cleaved embryos than that in a 1-μL droplet and produced a similar rate of blastocysts compared with that of a group culture system. Conversely, BCB selection did not improve cleavage and blastocyst formation. In conclusion, it was possible to predict porcine oocytes competent for maturation using oocyte selection with BCB. Moreover, a 5-μL droplet during the individual IVM culture was most suitable for oocyte maturation and subsequent embryo development, although every culture density used in this study supported development up to the blastocyst stage.     

Comparisons between nulliparous heifers and cows as oocyte donors for embryo production in vitro

The aims of the present study were to compare (1) Holstein-Friesian heifers versus early postpartum lactating cows, and (2) different age categories of crossbred beef heifers versus cows, in terms of oocyte yield, morphological quality and developmental competence. Four experiments were designed to test the associated hypotheses. In Experiment 1, ovum pick up was carried out twice weekly for a period of 5 weeks on Holstein-Friesian heifers (n = 8) and early postpartum cows (n = 8). Oocytes were submitted to in vitro maturation (IVM), fertilization and culture. Significantly more follicles were punctured on the ovaries of heifers than cows (10.4 versus 7.8, P < 0.001). This was reflected in a significantly higher number of total oocytes (4.7 versus 2.8, P < 0.001) and grade 1-2 oocytes recovered/animal from heifers than from cows (3.0 versus 1.8, P < 0.05). There was no significant difference in the percentage of oocytes cleaving after fertilization, or in the percentage reaching the blastocyst stage between heifers and cows. In Experiment 2, oocytes were obtained by manual aspiration from the ovaries of slaughtered crossbred beef heifers (under 30 months, n = 1241) and cows (over 4 years old, n = 1125), and processed in vitro as above. No significant difference was observed between the two groups in terms of the number of aspirated follicles or oocytes recovered. A significantly higher proportion (P < 0.01) of cow oocytes than heifer oocytes reached the blastocyst stage (Day 8: 46.5% versus 33.4%). In Experiment 3, ovaries were separated according to age of heifer into three groups: (1) 12-18 months, (2) 19-24 months and (3) 25-30 months, and compared with cow oocytes. There was no significant difference in the blastocyst yield between the different age groups of heifers. Irrespective of heifer age, the blastocyst yield on Day 8 was significantly lower than that from cow oocytes (35.0, 35.2, 36.5 and 48.3%, respectively, P < 0.05). In Experiment 4, a significantly higher proportion (P < 0.001) of presumptive zygotes derived from abattoir-derived cow oocytes reached the blastocyst stage following culture in vivo in the ewe oviduct than those derived from heifer oocytes (Day 8: 53.1% versus 25.2% for cow and heifer oocytes, respectively). In conclusion, the origin of the oocyte has a significant impact on its subsequent developmental potential. These results would suggest that in an in vitro production system, cow oocytes should be preferentially used over those from heifers in order to maximize blastocyst development.     

Disturbances of nuclear maturation in BCB positive oocytes collected from peri-pubertal gilts

The developmental competence (quality) of oocytes is affected by several factors linked to their intrinsic properties and also to growth and maturation environment. Donor puberty and chromosomal complement are one of the main factors influencing oocyte quality. A high rate of porcine oocytes matured in vitro is chromosomally imbalanced. Moreover, there is no published data on chromosomal aberrations in oocytes selected by the brilliant cresyl blue (BCB) test. Therefore, the aim of this study was to analyze whether BCB positive (BCB+) oocytes derived from ovaries of peripubertal gilts (prepubertal NCL and cyclic CL) differ with respect to the incidence of numerical chromosome aberrations. COCs collected from NCL and CL ovaries were selected by the BCB test. Only BCB+ oocytes were matured in vitro and subjected to FISH analysis using molecular probes for chromosome pairs 1 and 10. The rate of BCB+ oocytes was similar for both groups of ovaries (NCL 80%, CL 92%). Altogether 554 oocytes were fixed and 471 oocytes at the MII stage were analyzed cytogenetically. Diploid (2MII) and aneuploid oocytes were detected. The contribution of MII oocytes was similar for NCL (85%) and CL (90%) group. Chromosomally aberrant BCB+ oocytes accounted for 18.0% and ranged from 13.7% for CL and 22.2% for NCL ovaries. Diploidy was a predominant anomaly observed (11.2%) with a significantly higher frequency in BCB+ oocytes of pre-pubertal (16.7%) than cyclic gilts (5.6%, P < 0.05). Aneuploid oocytes occurred with similar rate in NCL (6.7%) and CL (8.5%) females. The majority of aneuploid spreads (72.2%; P < 0.01) concerned the chromosome pair 10. The overall rate of disomy (56%) and nullisomy (44.4%) was similar. We have shown that donor puberty affects the incidence of chromosomal abnormalities in porcine oocytes matured in vitro. Significantly more diploid oocytes was derived from prepubertal ovaries, whereas the frequency of aneuploidy was similar in NCL and CL gilts.