The novel use of modified pig zygotic medium for the efficient culture of the preimplantation mouse embryos

A high potassium concentration in culture media is considered detrimental to in vitro culture of mouse embryos. Here we show that pig zygotic medium (PZM) containing a higher concentration of potassium, and modified to contain 0.2 mM glucose and 0.01 mM EDTA, supported efficient pre- and post-implantation development of mouse zygotes to blastocysts and live pups, respectively. At first, modified PZM (mPZM) was compared with other culture media such as M16, CZB and KSOM-AA for its ability to support development of in vivo mouse zygotes to the blastocyst stage. The proportions of zygotes reaching 2-cell (94-99%) and blastocyst (90-96%) stages in mPZM and other media were not different. However, hatching rates of blastocysts were different (P < 0.05); whereas more than 90% of the blastocysts were hatching in mPZM or KSOM-AA, only 60% of the blastocysts did in M16 or CZB media (P < 0.05). Next we compared post-implantation development of in vitro fertilized zygotes developed to blastocysts in mPZM and KSOM-AA. The proportion of blastocysts developing into live pups was not different between mPZM (49%) and KSOM-AA (44%). Finally, we evaluated whether mPZM could be also used as a fertilization medium. Modified PZM containing 5.56 mM of glucose and 0.4% BSA efficiently supported IVF of mouse gametes. The percent of zygotes cleaving to 2-cell (94-98%) and blastocysts (91-93%) stage was not different from zygotes fertilized in human tubal fluid medium. We concluded that modified pig zygotic medium containing a higher potassium concentration than any other commonly used mouse media supported not only culture of mouse embryos, but also efficient IVF of mouse gametes.     

Effect of MEM vitamins and forskolin on embryo development and vitrification tolerance of in vitro-produced pig embryos

The aims of this study were (1) to determine the effect of in vitro maturation (IVM) medium supplementation with MEM vitamins on in vitro embryo development and sensitivity to vitrification of Day 6 blastocysts and (2) to evaluate whether the addition of forskolin to in vitro culture (IVC) medium enhances blastocyst survival following Super Open Pulled Straw (SOPS) vitrification. Cumulus–oocyte complexes (COCs; n = 4000) were matured with 0.0% or 0.05% (v/v) MEM vitamins. After 44 h of IVM, the oocytes were in vitro fertilized, and presumptive zygotes were cultured. At Day 5 of IVC, embryos from both experimental groups were cultured for 24 h with 0 or 10 μM forskolin, achieving a 2 × 2 factorial design. The blastocyst formation rate was assessed on Day 6, and subsets of samples from the four experimental groups were vitrified (n = 469) or kept fresh (n = 546). Fresh and vitrified-warmed blastocysts were cultured for 24 h prior to embryo survival and total blastocyst cell number assessment. The MEM vitamins increased (P < 0.001) the blastocyst formation rate at Day 6, but they did not affect embryo survival after vitrification. In contrast, the addition of forskolin to the culture medium enhanced (P < 0.05) the blastocyst vitrification tolerance. The total blastocyst cell number was similar among the groups. In conclusion, supplementation with 0.05% MEM vitamins improved the blastocyst formation rate, and the addition of 10 μM forskolin to the culture medium increased survival in Day 6 in vitro-produced blastocysts after SOPS vitrification.     

Exogenous glutathione improves intracellular glutathione synthesis via the γ-glutamyl cycle in bovine zygotes and cleavage embryos

Excess reactive oxygen species (ROS) generated in embryos during in vitro culture damage cellular macromolecules and embryo development. Glutathione (GSH) scavenges ROS and optimizes the culture system. However, how exogenous GSH influences intracellular GSH and improves the embryo developmental rate is poorly understood. In this study, GSH or GSX (a stable GSH isotope) was added to the culture media of bovine in vitro fertilization embryos for 7 days. The cleavage rate, blastocyst rate, and total cell number of blastocysts were calculated. Similarly to GSH, GSX increased the in vitro development rate and embryo quality. We measured intracellular ROS, GSX, and GSH for 0–32-hr postinsemination (hpi) in embryos (including zygotes at G1, S, and G2 phases and cleaved embryos) cultured in medium containing GSX. Intracellular ROS significantly decreased with increasing intracellular GSH in S-stage zygotes (18 hpi) and cleaved embryos (32 hpi). γ-Glutamyltranspeptidase ( GGT) and glutathione synthetase ( GSS) messenger RNA expression increased in zygotes (18 hpi) and cleaved embryos treated with GSH, consistent with the tendency of overall GSH content. GGT activity increased significantly in 18 hpi zygotes. GGT and GCL enzyme inhibition with acivicin and buthionine sulfoximine, respectively, decreased cleavage rate, blastocyst rate, total cell number, and GSH and GSX content. All results indicated that exogenous GSH affects intracellular GSH levels through the γ-glutamyl cycle and improves early embryo development, enhancing our understanding of the redox regulation effects and transport of GSH during embryo culture in vitro.     

Timing of the first zygotic cleavage as a marker of developmental potential of mammalian embryos

Embryo quality related to its developmental potential is now one of the most important issues in modern embryology. It has been demonstrated that some in vitro produced blastocysts fail to hatch and implant after transfer despite a normal morphology. Although embryos are able to adjust to sub-optimal culture conditions, significant changes in expression profiles of developmentally important genes have been noticed. Timing of the first zygotic cleavage is considered a non-invasive marker of embryo developmental potential and has been successfully used in human IVF programs for identifying embryos of superior quality. Early-cleaving zygotes are more likely to develop to the blastocyst stage than their late-cleaving counterparts. The timing of the first zygotic cleavage has been associated with several parameters that may affect developmental potential of the resulting embryos. The mechanism causing variation in the timing of the first zygotic cleavage has not been identified. It may be related to culture environment or to some intrinsic factors within the oocyte, the sperm or both. In this paper we discuss some of the important aspects related to the timing of the first zygotic cleavage and its influence on the developmental competence of resulting embryos.     

Effect of cumulus cell coculture and oxygen tension on the in vitro developmental competence of bovine zygotes cultured singly

The customary practice in bovine in vitro embryo production (IVP) is to handle oocytes and embryos in groups; although there are several reasons for establishing an IVP system for individual embryos that allows for following a single oocyte from retrieval through development to the blastocyst stage. To date, reports of individual IVP are inconsistent, and in most cases, resulted in unsatisfactory blastocyst rates. The objective of this study was to develop an efficient system for routine in vitro culture of individual bovine embryos. Single culture of zygotes in 2 different culture volumes (20 and 500 μL) yielded less than 3% blastocysts in experiment 1. In an attempt to improve these results, cumulus cells were added to the culture medium in experiment 2, after which blastocyst rates increased from 2.9 to 21.8% (P < 0.05). The third experiment revealed that an atmospheric oxygen tension, which is commonly used with somatic cell coculture, was not beneficial during individual embryo-cumulus cell coculture, because it resulted in lower blastocyst rates (Odds ratio 0.57, P < 0.001) and in lower blastocyst cell numbers (P < 0.05), when compared to culture in 5% oxygen. Grouped vs. single culture and reduced oxygen tension did not have a significant effect on cleavage and hatching rates. In experiment 4, three different cumulus cell coculture conditions during individual culture were tested and compared with the cleavage, blastocyst and hatching rates, and cell number of group culture (73.2%, 36.4%, 66.7% and, 155.1 ± 7.26, respectively). The outcome variables after individual embryo culture on a 5-day-old cumulus cell monolayer (74.1%, 38.2%, 71.9% and 133.4 ± 9.16, respectively), and single culture in the presence of added cumulus cells (69.9%, 31.9%, 66.7% and 137.3 ± 8.01, respectively) were not significantly different from those obtained after group culture (P < 0.05). Though, individual culture in a cumulus cell conditioned medium significantly reduced both the cleavage (59.0%) and blastocyst rates (6.3%). These results demonstrate that single culture of bovine zygotes can be fully sustained by coculture with cumulus cells in a low oxygen environment; implementation of these findings in our IVP system produced blastocysts comparable in quantity and quality to those obtained by group culture. These results were consistently achieved after acquiring experience and expertise in the handling of single zygotes.     

Changes of lipid composition in non-cultured and cultured porcine embryos

The objective of the present study was to evaluate the lipid composition of cultured and non-cultured pig embryos during cleavage using histochemical methods. The authors studied pig zygotes as well as 2-to 4-cell embryos, morulae, and blastocysts that were either non-cultured or cultured in NCSU-23 medium. To detect different types of lipids, the authors used the Churukian method with Oil red O, the Sudan black B method, the Cain method with Nile blue sulfate, and the modified osmium tetroxide-ethanol treatment. In the zygotic lipid droplets, diverse classes of unsaturated and saturated lipids were found, with particularly high levels of unsaturated hydrophobic lipids, mainly triglycerides and other esters, free fatty acids, and phospholipids. In the zygotic cytoplasm, the authors observed high levels of fatty acids and phospholipids. The total lipid content remained constant up to the morula stage, decreasing later at the blastocyst stage, but the overall amount of unsaturated lipids declined earlier, at the 2-to 4-cell stage. The amount of free fatty acids and phospholipids decreased during cleavage in both non-cultured and cultured porcine embryos. The main differences between the non-cultured and cultured embryos were the more pronounced reduction in the amount of unsaturated hydrophobic lipids in droplets and the cytoplasmic free fatty acids observed in the cultured morula and the lower content of phospholipids in the cytoplasm of the cultured 2-to 4-cell embryos relative to the non-cultured embryos. The decrease in the unsaturated lipid, free fatty acid, and phospholipid content during in vivo development and the differences in the amount of these types of lipids between developmentally matched cultured and non-cultured pig embryos correlate well with modifications of lipid and carbohydrate metabolism.     

The novel use of modified pig zygotic medium for the efficient culture of the preimplantation mouse embryos

A high potassium concentration in culture media is considered detrimental to in vitro culture of mouse embryos. Here we show that pig zygotic medium (PZM) containing a higher concentration of potassium, and modified to contain 0.2 mM glucose and 0.01 mM EDTA, supported efficient pre- and post-implantation development of mouse zygotes to blastocysts and live pups, respectively. At first, modified PZM (mPZM) was compared with other culture media such as M16, CZB and KSOM-AA for its ability to support development of in vivo mouse zygotes to the blastocyst stage. The proportions of zygotes reaching 2-cell (94–99%) and blastocyst (90–96%) stages in mPZM and other media were not different. However, hatching rates of blastocysts were different (P < 0.05); whereas more than 90% of the blastocysts were hatching in mPZM or KSOM-AA, only 60% of the blastocysts did in M16 or CZB media (P < 0.05). Next we compared post-implantation development of in vitro fertilized zygotes developed to blastocysts in mPZM and KSOM-AA. The proportion of blastocysts developing into live pups was not different between mPZM (49%) and KSOM-AA (44%). Finally, we evaluated whether mPZM could be also used as a fertilization medium. Modified PZM containing 5.56 mM of glucose and 0.4% BSA efficiently supported IVF of mouse gametes. The percent of zygotes cleaving to 2-cell (94–98%) and blastocysts (91–93%) stage was not different from zygotes fertilized in human tubal fluid medium. We concluded that modified pig zygotic medium containing a higher potassium concentration than any other commonly used mouse media supported not only culture of mouse embryos, but also efficient IVF of mouse gametes.     

In vitro development up to hatching of bovine in vitro-matured and fertilized oocytes with or without support from somatic cells

To verify the importance of somatic cells upon in vitro embryo development, in vitro-matured (IVM) and -fertilized (IVF) bovine oocytes were cultured in TCM 199 supplemented with estrous cow serum (10% v/v) and 0.25 mM sodium pyruvate (ECSTCM) under the following treatments: 1) ECSTCM alone; 2) together with bovine oviduct epithelial cells (BOEC); 3) with cumulus cells (CC); 4) in fresh BOEC conditioned ECSTCM; or 5) in frozen-thawed BOEC conditioned ECSTCM. Culturing zygotes encased in cumulus cells significantly reduced the cleavage rate (P<0.05). There was no difference between culture systems in the proportions of embryo development through the 8-cell stage (P=0.42) up to the morula/blastocyst stages (P=0.50) at Day 7 post insemination. However, co-culture with BOEC yielded the highest percentage (21.2% of zygotes; P<0.05) of quality Grade-1 and Grade-2 embryos with the number of blastomeres per embryo (114.4) comparable to that of 7-day-old in vivo-developed embryos of similar grades (102.5), and higher (P<0.05) than those of the other treatments. The ratio of blastocysts to total morulae/blastocysts obtained from frozen-thawed conditioned medium was lower (P<0.05) than that from ECSTCM or after co-culture with BOEC at Day 7 post insemination. On average, 7.5 to 17.5% of the zygotes developed to blastocyst, expanded blastocyst and hatched blastocyst stages by Day 10 post insemination, depending upon the culture system. The difference between treatments, however, was not significant (P=0.68). The results indicate that chronological development up to hatching of bovine IVM-IVF embryos is not favored by somatic cells; however, the presence of viable oviduct epithelial cells in culture significantly improves the quality of 7-day-old embryos.     

Comparison of in vitro development and gene expression of in vivo- and IVM/IVF-derived porcine embryos after microinjection of foreign DNA

We compared the developmental ability and gene expression of in vivo- and IVM/IVF-derived porcine embryos following microinjection with SV40-LacZ. A total of 412 IVM/IVF-derived and 129 in vivo-collected zygotes was used to examine developmental ability and gene expression following DNA microinjection. When either DNA injected or noninjected zygotes were cultured for 4 d in NCSU 23 followed by 5 d in Eagle's minimal essential medium (EMEM), the percentages of zygotes developing to blastocysts and hatched blastocysts were higher (P < 0.05) compared with groups cultured in NCSU 23 alone. The percentages of injected embryos reaching the morula and blastocyst stages were significantly lower (P < 0.05) than that of noninjected control embryos whether in vivo or IVM/IVF derived. The percentages of morula and blastocyst stage embryos expressing the gene were higher in the in vivo-derived embryos than in IVM/IVF-derived embryos. A lower proportion of (67 to 77%) mosaicism was observed in the in vivo-derived embryos than in IVM/IVF (90 to 100%) derived embryos. The total cell number of blastocysts cultured in both NCSU 23 and EMEM media was significantly higher than that of blastocysts cultured continuously in NCSU 23. Our results suggest that this dual culture system enhanced embryo viability following microinjection of foreign DNA.     

In vitro production of a caprine embryo from a preantral follicle cultured in media supplemented with growth hormone

The objective was to evaluate the effects of growth hormone (GH) on the survival, growth, maturation, and fertilization of oocytes derived from caprine preantral ovarian follicles cultured in vitro. Preantral follicles were isolated from the cortex of caprine ovaries and individually cultured for 18 d in the absence (control) or presence of bovine GH at concentrations of 10 or 50 ng/mL (GH10 and GH50, respectively). Follicle development was evaluated on the basis of survival, antral cavity formation, diameter increase, and the presence of healthy cumulus-oocyte complexes and mature oocytes. After culture, oocytes were subjected to in vitro maturation (IVM) and in vitro fertilization (IVF). The rate of antrum formation after Day 6 of culture was higher in both GH10 and GH50 than in the control (81.0, 92.7, and 47.6%, respectively, P < 0.05). Percentages of grown oocytes that were acceptable for IVM were also higher (P < 0.05) in GH-treated groups than in the control (54.8, 48.8, and 11.9% for GH10, GH50, and Control). A higher percentage of oocytes in the GH50 treatment underwent meiotic resumption (50.0%), produced mature oocytes, and enabled production of an embryo after IVF than in the control group (0.0%; P < 0.05). In conclusion, GH promoted in vitro growth and maturation of goat preantral follicle oocytes and enabled production of an embryo. Furthermore, this study was apparently the first to produce a caprine embryo by in vitro fertilization of oocytes derived from preantral follicles grown in vitro.     

Relationship between timing of development,morula morphology,and cell allocation to inner cell mass and trophectoderm in in vitro-produced bovine embryos

Noninvasive measurements of bovine embryo quality, such as timing of cleavage, morula morphology, blastocyst formation, and hatching ability, were linked with the number of inner cell mass (ICM) cells and trophectoderm (TE) cells of the resulting embryos. First, it was confirmed that fast-cleaving embryos proved to have significantly higher chances to reach advanced developmental stages vs. intermediate and slow cleavers (P = 0.01). They also showed significantly less fragmentation at the morula stage, implying the presence of more excellent morulae among fast-cleaving embryos (P < 0.05). Second, the quality of hatched blastocysts, resulting from morulae of different morphological grades, was examined by differential staining. The total cell and ICM cell numbers were significantly lower for hatched blastocysts developed from poor morulae compared to hatched blastocysts developed from excellent, good, or fair morulae. However, hatched blastocysts with <10 ICM cells were seen in embryos belonging to all four morphological scores. Finally, it was found that timing of first cleavage was not significantly correlated with timing of blastocyst formation or with cell number of blastocysts. Timing of blastocyst formation, however, was significantly correlated with cell number: day 8 blastocysts had significantly lower total cell and ICM cell numbers than day 6 and day 7 blastocysts (P < 0.001). These results suggest that the quality of in vitro-produced bovine embryos is very variable and cannot be linked with a single criterion such as embryo morphology and/or hatching ability. Timing of blastocyst formation was the most valuable criterion with regard to embryonic differentiation. Mol. Reprod. Dev. 47:47–56, 1997. © 1997 Wiley-Liss, Inc.     

Timing of the first cleavage post‐insemination affects cryosurvival of in vitro–produced bovine blastocysts

The time of the first cleavage of bovine zygotes during in vitro culture can affect the rate of development and cell number of the blastocysts. The aim of this work was to study the effect of the timing of first cleavage on the cryosurvival of the resulting blastocysts. Following standard IVM and IVF, zygotes were cultured in modified synthetic oviduct fluid (SOF), with 10% fetal calf serum (FCS) added 48 hr post insemination, in a humidified atmosphere of 5% CO_2, 5% O₂ and 90% N₂. Embryos which cleaved by 24, 27 30, 33, or 36 hr after insemination (IVF) were harvested and further cultured to the blastocyst stage (day 7 or day 8 post IVF). All developing blastocysts on days 7 and 8 were classified into three groups and were cryopreserved by vitrification. Group A consisted of blastocysts (<150 μm, small blastocysts); group B consisted of expanded or hatching blastocysts (>150 μm, large blastocysts); and group C consisted of morphologically poor quality blastocysts. The vitrification solution consisted of 6.5 M glycerol and 6% bovine serum albumin in PBS (VS3a). Thawed embryos were cultured further and survival was defined as the re‐expansion and maintenance of the blastocoel over 24, 48, and 72 hr, respectively. Overall survival and hatching at 72 hr post‐thawing was higher in blastocysts formed by day 7 than those formed by day 8 (60% vs. 40% survival; 63% vs. 45% hatching). Large blastocysts from day‐7 and day‐8 groups survived significantly better than small or poor quality blastocysts (76% vs. 63% and 31%; 72% vs. 30% and 26%, respectively; P < 0.05). Day‐7 blastocysts from the 27‐ and 30‐hr cleavage groups survived significantly better than those from the 36‐hr group (63% and 66% vs. 25%, P < 0.05). Day‐8 blastocysts from later cleaved (30 hr) zygotes had a higher survival than the 27‐hr cleavage groups (52% vs. 26%, P < 0.05). These results indicate that the day of blastocyst appearance, developmental stage, and timing of the first cleavage post‐insemination can influence the cryosurvival of bovine blastocysts following vitrification. Mol. Reprod. Dev. 53:318–324, 1999. © 1999 Wiley‐Liss, Inc.     

In vitro embryo production in goats: Slaughterhouse and laparoscopic ovum pick up–derived oocytes have different kinetics and requirements regarding maturation media

A total of 3427 goat oocytes were used in this study to identify possible differences during in vitro embryo production from slaughterhouse or laparoscopic ovum pick up (LOPU) oocytes. In experiment 1, one complex, one semi-defined, and one simplified IVM media were compared using slaughterhouse oocytes. In experiment 2, we checked the effect of oocyte origin (slaughterhouse or LOPU) on the kinetics of maturation (18 vs. 22 vs. 26 hours) when submitted to semi-defined or simplified media. In experiment 3, we determined the differences in embryo development between slaughterhouse and LOPU oocytes when submitted to both media and then to IVF or parthenogenetic activation (PA). Embryos from all groups were vitrified, and their viability evaluated in vitro after thawing. In experiment 1, no difference (P > 0.05) was detected among treatments for maturation rate (metaphase II [MII]; 88% on average), cleavage (72%), blastocyst from the initial number of cumulus oocyte complexes (46%) or from the cleaved ones (63%), hatching rate (69%), and the total number of blastomeres (187). In experiment 2, there was no difference of MII rate between slaughterhouse oocytes cultured for 18 or 22 hours, whereas the MII rate increased significantly (P < 0.05) between 18 and 22 hours for LOPU oocytes in the simplified medium. Moreover, slaughterhouse oocytes cultured in simplified medium matured significantly faster than LOPU oocytes at 18 and 22 hours (P < 0.05). In experiment 3, cleavage rate was significantly greater (P < 0.001) in all four groups of embryos produced by PA than IVF. Interestingly, PA reached similar rates for slaughterhouse oocytes cultured in both media, but improved (P < 0.05) the cleavage rate of LOPU oocytes. Slaughterhouse oocytes had acceptable cleavage rate after IVF (∼67%), whereas LOPU oocytes displayed a lower one (∼38%), in contrast to cleavage after PA. The percentage of blastocysts in relation to cleaved embryos was not affected by the origin of the oocytes (P > 0.05). Therefore, slaughterhouse oocytes developed a greater proportion of blastocysts than LOPU ones, expressed as the percentage of total cumulus oocyte complexes entering to IVM. Vitrified-thawed blastocysts presented similar survival and hatching rates between the oocyte origin, media, or method of activation. In conclusion, slaughterhouse and LOPU derived oocytes may have different IVM kinetics and require different IVM and IVF conditions. Although the IVM and IVF systems still need improvements to enhance embryo yield, the in vitro development step is able to generate good quality embryos from LOPU-derived oocytes.     

Effect of microinjection time during postfertilization S-phase on bovine embryonic development

Microinjection into bovine zygotes was performed to evaluate the effects of the timing of injection during the phase of DNA replication on the subsequent in vitro development of embryos and expression of injected chicken β-actin promoter-lac Z gene construct. The period of DNA replication of bovine zygotes, determined by ³H-thymidine incorporation, begins between 12 hr and 13 hr postinsemination (hpi) of in vitro matured oocytes, reaches a maximum from 17 hpi to 19 hpi, and is complete by 21–22 hpi. Aphidicolin, an inhibitor of DNA polymerase alpha, was used to synchronize the pronuclei and the zygote population. Treatment with aphidicolin at 9–18 hpi arrested DNA replication without affecting formation of the pronuclei or embryo development. Cycloheximide, an inhibitor of protein synthesis, was used for nucleocytoplasmic resynchronization of the aphidicolin-treated zygotes. Microinjection was performed at 15 (early), 18 (mid), and 21 (late S phase) hpi. Embryonic development was affected following each of the three microinjection times. The development of zygotes injected at 18 hpi was significantly higher (P<0.01) after 5 days of culture than those injected at 15 hpi or 21 hpi. Expression of the marker gene was observed in the higher stage of development (>16 cells) only in the zygotes injected at 18 hpi. At the earlier stages of development, the proportions of embryos showing expression of the foreign gene were the same for all microinjection times. In aphidicolin- and cycloheximide-treated zygotes, expression of the marker gene followed the same curve as development, i.e., expression was low when injected early or late and higher (P<0.005) when injected in the middle of zygotic S phase. The ability of the embryos to survive microinjection and to express the marker gene as a function of hpi seems to be influenced mostly in the cytoplasm processing stage rather than the pronuclei processing stage. © 1995 Wiley-Liss, Inc.     

Effect of retinoids and growth factor on in vitro bovine embryos produced under chemically defined conditions

Experiments were conducted to investigate the beneficial effects of adding retinol (RT) and retinoic acid (RA) to bovine oocyte maturation media and insulin-like growth factor-I (IGF-I) to embryo culture under chemically-defined conditions. In Experiment 1.1, in vitro maturation (IVM) was performed in basic maturation media (bMM) and supplemented with 0.3microM RT or 0.5microM RA. For embryo development presumptive zygotes and embryos were placed in droplets of potassium simplex optimized medium (KSOM). Addition of RT and RA to bMM improved (p<0.05) blastocyst formation as compared with control treatments. In Experiment 1.2, using embryos originating from oocytes previously treated with RT and RA, the presumptive zygotes were placed in droplets of KSOM and embryos (2-4 cells) in droplets of fresh KSOM supplemented or not with IGF-I. The number of 2-4-cell stage embryos developing to the blastocyst and expanded blastocyst stages were greater (p<0.05) when embryo culture media was supplemented with IGF-I. In Experiment 2.1, IVM was conducted with bMM+FSH containing 0.3microM RT or 0.5microM RA. For embryo development, presumptive zygotes were placed in droplets of KSOM. Addition of RT or RA to IVM medium also enhanced (p<0.05) blastocyst formation. The supplementation of embryo culture media with IGF-I resulted in a greater number (p<0.05) of 2-4-cell stage embryos developing into blastocysts, expanded blastocysts and hatched blastocysts. In Experiment 2.2, using embryos originating from oocytes previously treated with RT and RA, presumptive zygotes were also placed in droplets of KSOM and embryos (2-4 cells) in droplets of fresh KSOM supplemented or not with IGF-I. The supplementation of embryo culture media with IGF-I resulted in a greater (p<0.05) number of 2-4-cell stage embryos developing to the blastocyst, expanded blastocyst and hatched blastocyst stages.     

Daily supplementation with ghrelin improves in vitro bovine blastocysts formation rate and alters gene expression related to embryo quality

Ghrelin is a gastric peptide having regulatory role in the reproductive system functionality, acting mainly at central level. Because the expression of ghrelin system (ghrelin and its receptor) has been detected in the bovine ovary, the objectives of the present study were to investigate whether ghrelin can affect the developmental potential of in vitro-produced embryos, and to test their quality in terms of relative abundance of various genes related to metabolism, apoptosis and oxidation. In the first experiment, in vitro-produced zygotes were cultured in the absence (control [C]) and in the presence of three concentrations of acylated ghrelin (200 pg/mL [Ghr200], 800 pg/mL [Ghr800]; and 2000 pg/mL [Ghr2000]); blastocyst formation rates were examined on Days 7, 8, and 9. In the second experiment, only the 800 pg/mL dose of ghrelin was used. Zygotes were produced as in experiment 1 and 24 hours post insemination they were divided into 4 groups; in two groups (C; without ghrelin; Ghr800 with ghrelin), embryos were cultured without medium replacement; in the remaining two groups (Control N and GhrN), the culture medium was daily renewed. A pool of Day-7 blastocysts were snap frozen for relative mRNA abundance of various genes related to metabolism, oxidation, implantation, and apoptosis. In experiment 3, embryos were produced as in experiment 2, but in the absence of serum (semi-defined culture medium). In experiment 1, no differences were detected between C, Ghr200, and Ghr2000, although fewer blastocysts were produced in group Ghr800 compared with C. In experiment 2, the lowest blastocysts yield was found in Ghr800, whereas daily renewal of ghrelin (Ghr800N) resulted to increased blastocysts formation rate, which on Day 7 was the highest among groups (P < 0.05). In experiment 3, ghrelin significantly suppressed blastocysts yield. Significant differences were detected in various relative mRNA abundance, giving an overall final notion that embryos produced in the presence of ghrelin were of better quality than controls. Our results imply a specific role of ghrelin in early embryonic development; however, the specific mode of its action needs further investigation.