In vivo oocytes grow and mature in ovarian follicles whereas oocytes are matured in vitro in plastic culture dishes with a hard surface. In vivo oocytes show a superior developmental ability to in vitro counterparts, indicating suboptimal environments of in vitro culture. This study aimed to evaluate the influence of an agarose matrix as a culture substrate during in vitro maturation (IVM) on the development of pig oocytes derived from small antral follicles (SAFs). Cumulusoocyte complexes (COCs) retrieved from SAFs were grown in a plastic culture dish without an agarose matrix and then cultured for maturation in a plastic dish coated without (control) or with a 1% or 2% (w/v) agarose hydrogel. Then, the effect of the soft agarose matrix on oocyte maturation and embryonic development was assessed by analyzing intra-oocyte contents of glutathione (GSH) and reactive oxygen species (ROS), expression of VEGFA, HIF1A , and PFKP genes, and blastocyst formation after parthenogenesis. IVM of pig COCs on a 1% (w/v) agarose matrix showed a significantly higher blastocyst formation, intra-oocyte GSH contents, and transcript abundance of VEGFA. Moreover, a significantly lower intra-oocyte ROS content was detected in oocytes matured on the 1% and 2% (w/v) agarose matrices than in control. Our results demonstrated that IVM of SAFs-derived pig oocytes on a soft agarose matrix enhanced developmental ability by improving the cytoplasmic maturation of oocytes through redox balancing and regulation of gene expression.

This study was conducted to evaluate the effects of insulin and epidermal growth factor (EGF) in a in vitro growth (IVG) medium on oocyte growth, in vitro maturation (IVM) and embryonic development of pig oocytes derived from small antral follicles (SAF) less than 3 mm in diameter. SAF oocytes were cultured for 2 days to induce IVG in alpha-minimal essential medium supplemented with 1 mM dbcAMP and 15% (v/v) fetal bovine serum. After IVG culture, oocyte maturation was induced by culturing IVG oocytes in IVM medium for 44 h. IVM oocytes that extruded the first polar body were selected and induced for parthenogenesis (PA) by applying electric stimulus. SAF oocytes cultured under the insulin treatment showed a significantly increased (P < 0.05) nuclear maturation (73.8%) compared to those cultured with insulin and EGF (59.8%). After PA, the proportions of blastocysts based on the number of metaphase II oocytes were significantly higher (P < 0.05) in oocytes that were cultured for IVG with insulin, EGF, and insulin + EGF (32.4%, 35.2%, and 34.8%, respectively) than in control (22.9%). IVG oocytes treated with insulin showed an increased oocyte diameter (116.3 μm) compared to those treated with insulin and EGF (114.0 μm) (P < 0.05). Intra-oocyte GSH content significantly increased (1.07 pixels/oocyte) by insulin treatment during IVG compared to that of oocytes treated with insulin + EGF (0.78 pixels/oocyte). These results demonstrate that IVG culture of SAF oocytes under insulin or/and EGF treatment supports oocyte maturation and improves embryonic development to the blastocyst stage after PA in pigs.

To improve survival rates of vitrified pig oocytes, the treatment of cytoskeletal stabilizer on an appropriate time is one of the possible approaches. However, the exact treatment timing and effect of cytoskeletal stabilizer such as cytochalasin B (CB) is not well known during oocyte vitrification procedures. Thus, the present study was conducted to determine optimal treatment timing of CB during vitrification and warming procedures. In experiment 1, the survival rates of the post-warming pig oocytes were analyzed by fluorescein diacetate (FDA) assay with 4 classifications. In results, post-warming oocytes showed significantly (p<0.05) decreased number of alive oocytes (31.8% vs. 86.4%) compared to fresh control. In detail, the significant difference (p<0.05) was found only in strong fluorescence (18.2% vs. 70.5%) not in intermediate fluorescence groups (13.6% vs. 15.9%). In experiment 2, CB was treated before (CB-Vitri) and after (Vitri-CB) vitrification. In results, group of Vitri-CB showed significantly (p<0.05) higher (91.6%) survival rates compared to group of CB-Vitri (83.7%), significantly (p<0.05) and comparable with group of Vitri Control (88.7%) by morphological inspection. In FDA assay results, group of Vitri-CB showed significantly (p<0.05) higher (44.2%) survival rates compared to groups of CB-Vitri (36.7%) and Vitri Control (35.1%). In conclusion, the increased survival rates of post-warming pig oocyte treated with Vitri-CB method are firstly described here. The main finding of present study is that the CB treatment during recovery could be helpful to refresh the post-warming pig oocyte resulting its improved survival rates.

In vitro maturation (IVM) systems have become indispensable for the production of large numbers of competent oocytes in domestic species. The quality of in vitro matured oocyte is one of the important factors determining the success of assisted reproductive technologies (ARTs) including intracytoplasmic sperm injection (ICSI), in vitro fertilization (IVF), and somatic cell nuclear transfer (SCNT) in human and livestock. Incomplete cytoplasmic maturation of oocytes can lead not only to a failure of fertilization but also to a developmental arrest after ARTs. Thus, establishment of a stable IVM system to produce a large number of high quality oocytes, especially in domestic animals, is essential for improvement of ARTs efficiency by producing high quality embryos. The morphological characteristics are commonly used to predict the developmental potential of oocytes and embryos. Usually, normal oocytes shrink when exposed to a hypertonic medium, and recover their morphology when returned to an isotonic medium. During this process, oocytes show various morphologic changes, such as shrinkage in spherical (SSP) or irregular shapes (SIR). In the first study, we investigated whether the shrinkage pattern of oocytes that was observed after hyperosmotic treatment could be used as a morphologic characteristic to predict the quality of IVM oocytes in pigs. We found that SSP oocytes showed improved developmental competence after PA and SCNT. This improved embryonic development was most likely because of the more advanced nuclear and cytoplasmic maturation in SSP oocytes compared with SIR oocytes. Pig oocytes shows a wide variation in the size of perivitelline space (PVS) after IVM. Based on this finding, we examined in the second study whether or not there was any correlation between the PVS size of IVM oocytes and their developmental competence after PA and SCNT. Our results demonstrated that in vitro developmental competence to the blastocyst stage positively correlated with the size of the PVS of oocytes after IVM. In addition, we observed that mature oocytes with a larger PVS showed higher levels of intracellular GSH content and transcription factor expression. Furthermore, enlargement of the PVS by culturing in reduced NaCl medium improves the embryonic development after PA and SCNT. In the third study, we investigated the effects of a hypotonic medium with reduced NaCl (61.6 mM) compared with an isotonic medium (108.0 mM NaCl) on oocyte maturation and embryonic development after PA and SCNT. In addition, we attempted to optimize our IVM system using a hypotonic maturation medium by examining the effects of hypotonic medium during various stages of IVM on oocyte maturation and subsequent embryonic development. Our results demonstrated that maturation of pig oocytes in hypotonic medium with reduced NaCl during the last 11 hr of IVM increased the developmental competence of oocytes after PA and SCNT. These beneficial effects was also shown in a commercial medium (a minimum essential medium; aMEM) in which the NaCl concentration was reduced to 61.6 mM. In addition, IVM of oocytes in medium with reduced NaCl increases the proportion of SSP oocytes in pigs. In summary, our results demonstrate that IVM of pig oocytes in a hypotonic medium with low-NaCl is better able to support embryonic development after PA and SCNT, most likely by improving the cytoplasmic maturation via increased intraoocyte GSH content and widened PVS. Based on these results, the newly developed IVM system using a hypotonic medium with reduced NaCl can produce high quality oocytes and be considered a new strategy for improving ARTs efficiency in pigs.

Crocin is a carotenoid that may protect cells against oxidative stress by scavenging free radicals particularly superoxide anions. It has been reported that oocyte maturation is influenced by the free radicals generated during in vitro culture (IVC) process. The objective of study was to examine the effect of crocin in in vitro maturation (IVM) medium as an antioxidant on oocyte maturation and embryonic development after parthenogenesis (PA). Cumulus-oocyte complexes (COCs) were collected from ovaries of prepubertal gilts. The basic medium for IVM was medium-199 containing 10% pig follicular fluid, cysteine, pyruvate, epidermal growth factor, kanamycin, insulin, and hormones. Oocytes were treated for 44 hours with crocin at 0, 25, 50, and 100 μg/ml during IVM. Oocytes reached the metaphase II stage were induced for PA and cultured for 7 days in porcine zygote medium-3. Nuclear maturation of oocytes was not influenced by various concentrations of crocin (89.0, 87.3, 84.3, and 94.1% for control, 25, 50, and 100 μg/ml crocin, respectively). IVM oocytes treated with 50 μg/ml crocin showed a higher (P<0.05) intraoocyte glutathione (GSH) contents than untreated oocytes (1.00 vs. 1.29 pixels/oocyte). Blastocyst formation of PA embryos treated with 50 (42.9%) and 100 μg/ml crocin (43.8%) was significantly higher (P<0.05) than oocytes treated with 25 μg/ml crocin (30.5%) but not different from that (35.2%) of untreated oocytes. In summary, crocin increases cytoplasmic maturation in terms of intraoocyte GSH content which may be beneficial for later embryonic development by protecting from harmful effect of reactive oxygen species. Further studies are needed to determine whether the beneficial effect of crocin treatment during IVC would be shown in embryonic development after in vitro fertilization and somatic cell nuclear transfer.

Oocytes from small antral follicles (< 3 mm in diameter; SAFO) show lower developmental competence compared to those from medium antral follicles (3-8 mm in diameter; MAFO) in pigs. This study was designed to evaluate the effect of various macromolecules such as fetal bovine serum (FBS), porcine follicular fluid (PFF), bovine serum albumin (BSA) and polyvinyl alcohol (PVA) in in vitro growth (IVG) medium on oocyte growth, maturation, and embryonic development after parthenogenesis (PA). The base medium for IVG was α-MEM supplemented with dibutyryl cyclic AMP, pyruvate, kanamycin, hormone. This medium was further supplemented with 10% FBS, 10% PFF, 0.4% BSA, or 0.1% PVA. The in vitro maturation (IVM) medium was medium-199 supplemented with 10% PFF, cysteine, pyruvate, epidermal growth factor, kanamycin, insulin, and hormones. SAFO were cultured for 2 days for IVG and then cultured for 44 h for IVM. After IVG, the mean diameter of SAFO treated with FBS, PVA, and no IVG-MAFO (114.1, 113.0, and 114.8 μm, respectively) was significantly larger (P<0.01) than that of no IVG-SAF (111.8 μm). Oocyte diameter after IVM was greater (P<0.01) in SAFO treated with FBS, BSA and PVA (112.8, 112.9 and 112.6 μm, respectively) than other groups (110.4, 109.6, and 109.8 μm for no IVG-MAFO, no IVG-SAFO and PFF, respectively). Intraoocyte GSH content was not influenced by the macromolecules in IVG medium (0.92, 0.93, 1.05, and 1.12 pixels/oocyte for FBS, PFF, BSA and PVA, respectively). The proportion of oocytes reached the metaphase II stage was higher in PFF (73.6%) than in BSA (43.5%) and PVA (53.7%) but not different from that of FBS treatment (61.5%). The cumulus expansion score of oocytes after IVG was significantly influenced (P<0.01) by the macromolecules (2.94, 2.24, 1.84, and 1.38 for PFF, FBS, PVA, and BSA treatments, respectively). Blastocyst formation of PA oocytes that were treated with FBS (51.8%), PFF (50.4%), and PVA (45.2%) during IVG was higher (P<0.05) than that of BSA-treated oocytes (20.6%) but was not significantly different from that (54.8%) of no IVG-MAFO oocytes. Our results demonstrated that growth, maturation, and embryonic development of SAFO are greatly influenced by macromolecules in IVG medium and that PFF or FBS can be replaced with a chemically defined synthetic macromolecule PVA.

Crocin is a carotenoid that may protect cells against oxidative stress by scavenging free radicals particularly superoxide anions. It has been reported that oocyte maturation is influenced by the free radicals generated during in vitro culture (IVC) process. The objective of study was to examine the effect of crocin in in vitro maturation (IVM) medium as an antioxidant on oocyte maturation and embryonic development after parthenogenesis (PA). Cumulus-oocyte complexes (COCs) were collected from ovaries of prepubertal gilts. The basic medium for IVM was medium-199 containing 10% pig follicular fluid, cysteine, pyruvate, epidermal growth factor, kanamycin, insulin, and hormones. Oocytes were treated for 44 hours with crocin at 0, 25, 50, and 100 μg/ml during IVM. Oocytes reached the metaphase II stage were induced for PA and cultured for 7 days in porcine zygote medium-3. Nuclear maturation of oocytes was not influenced by various concentrations of crocin (89.0, 87.3, 84.3, and 94.1% for control, 25, 50, and 100 μg/ml crocin, respectively). IVM oocytes treated with 50 μg/ml crocin showed a higher (P<0.05) intraoocyte glutathione (GSH) contents than untreated oocytes (1.00 vs. 1.29 pixels/oocyte). Blastocyst formation of PA embryos treated with 50 (42.9%) and 100 μg/ml crocin (43.8%) was significantly higher (P<0.05) than oocytes treated with 25 μg/ml crocin (30.5%) but not different from that (35.2%) of untreated oocytes. In summary, crocin increases cytoplasmic maturation in terms of intraoocyte GSH content which may be beneficial for later embryonic development by protecting from harmful effect of reactive oxygen species. Further studies are needed to determine whether the beneficial effect of crocin treatment during IVC would be shown in embryonic development after in vitro fertilization and somatic cell nuclear transfer.

In this study, to improve the in vitro development of various cells including cloned embryos, the effects that isoproterenol and melatonin have on in vitro development of porcine parthenogenetic oocytes were investigated. Parthenogenetic activation was induced with electrical stimulation, BSA and 6-DMAP treatment. 10-7 M of melatonin and isoproterenol (10-10, 10-12 and 10-14 M) were supplemented for in vitro maturation (IVM) and in vitro culture (IVC) medium, with different concentrations. When isoproterenol and melatonin were supplemented in IVM medium with different concentrations, there was no significant (P<0.05) difference of maturation rate in the treatment groups as well as in that of only melatonin. As isoproterenol and melatonin were supplemented in IVM medium with different concentrations, blastocyst rates of isoproterenol 10-12 M treatment group (37.1%) were significantly (P<0.05) higher than control group (26.0%). Isoproterenol and melatonin were supplemented in IVC medium with different concentrations, then the cleavage rate of 10-12 M isoproterenol treatment group (82.2%) was significantly (P<0.05) higher than the group that melatonin was only supplemented (70.9%). There was no difference of blastocyst rate between the treatment groups. When isoproterenol and melatonin were supplemented for IVM+IVC medium with different concentrations, the cleavage rate of 10-12 M isoproterenol treatment group (92.5%) was significantly (P<0.05) higher than the control group (82.8%) and the group that melatonin was only treated (81.6%). The blastocyst rate of 10-12 M as 45.6% was significantly (P<0.05) higher than control group (25.2%) and melatonin treatment group (31.2%). The cell number of blastocyst in 10-12 M isoproterenol treatment group 35.5±3.4 was significantly (P<0.05) highest. The results of this study showed that the development rate of IVC when both isoproterenol and melatonin were supplemented was higher than when melatonin was only supplemented. Therefore, it is concluded that isoproterenol is rather effective in the activation of melatonin. 10-7 M melatonin and 10-12 M isoproterenol were considered suitable concentration.

The objective of this study was to determine the effect of post-activation treatment with cytoskeletal regulators in combination with or without 6-dimethylaminopurine (DMAP) on embryonic development of pig oocytes after parthenogenesis (PA) and somatic cell nuclear transfer (SCNT). PA and SCNT oocytes were produced by using in vitromatured pig oocytes and treated for 4 h after electric activation with 0.5 μM latrunculin A (LA), 10.4 μM cytochalasins B (CB), and 4.9 μM cytochalasins D (CD) together with none or 2 mM DMAP. Post-activation treatment of PA oocytes with LA, CB, and CD did not alter embryo cleavage (85.8～88.6%), blastocyst formation (30.7～ 32.4%), and mean cell number of blastocysts (33.5～33.8 cells/blastocyst). When PA oocytes were treated with LA, CB, and CD in combination with DMAP, blastocyst formation was significantly (P<0.05) improved by CB+DMAP (42.5%) compared to LA+DMAP (28.0%) and CD+DMAP (25.1%), but no significant differences were found in embryo cleavage (77.5～78.0%) and mean blastocyst cell number (33.6～35.0 cells) among the three groups. In SCNT, blastocyst formation was significantly (P<0.05) increased by post-activation treatment with LA+DMAP (32.9%) and CD+DMAP (35.0%) compared to CB+DMAP (22.0%) while embryo cleavage (85.5～85.7%) and blastocyst cell number (41.1～43.8 cells) were not influenced. All three treatments (LA, CB, and CD with DMAP) effectively inhibited pseudo-polar body extrusion in SCNT oocytes. The proportions of oocytes showing single pronucleus formation were 89.6%, 83.9%, and 93.3%, respectively with the increased tendency (P<0.1) by LA+DMAP and CD+ DMAP compared to CB+DMAP. Our results demonstrate that post-activation treatment with LA or CD in combination with DMAP improves pre-implantation development of SCNT embryos and the stimulating effect of cytoskeletal modifiers on embryonic development is differentially shown depending on the origin (PA or SCNT) of embryos in pigs.

The objective of this study was to examine the effect of in vitro culture media on embryonic development of in vitro-matured (IVM) oocytes after parthenogenetic activation (PA) in pigs. Immature pig oocytes were matured in TCM-199 supplemented with porcine follicular fluid, cysteine, pyruvate, EGF, insulin, and hormones for the first 22 h and then further cultured in hormone-free medium for an additional 22~26 h. IVM oocytes were activated by electric pulses and cultured in porcine zygote medium-3 (PZM-3) and North Carolina State University-23 supplemented with essential and non-essential amino acids (NCSU-23aa). These media were further modified by supplementing 2.77 mM myo-inositol, 0.34 mM trisodium citrate, and -mercaptoethanol (designated as mPZM-3 and mNCSU-23aa, respectively). Culture of PA embryos in mPZM-3 significantly increased development to the blastocyst stage than culture in NCSU-23aa (36.2% vs. 24.8%, p<0.05). Modified PZM-3 showed a significantly higher blastocyst formation than NCSU-23aa in both groups of embryos that were activated at 44 h and 48 h of IVM (51.0% vs. 35.5% and 49.0% vs. 34.2% in oocytes activated at 44 h and 48 h of IVM, respectively). Irrespective of the follicle diameter where oocytes were collected, embryonic development to the blastocyst stage was increased (p<0.05) by the culture in mPZM-3 compared to culture in NCSU-23aa (25.9% vs. 34.2% and 32.9% vs. 44.8% in embryos derived from small and medium size follicles, respectively). Our results demonstrated that culture media had significant effect on preimplantation development PA embryos and that mPZM-3 was superior to mNCSU-23 in supporting development to the blastocyst stage in pigs. This beneficial effect of mPZM-3 on embryonic development was not impaired by other factors such as time of oocyte activation and origin of immature oocytes (small and medium size follicles).

In vitro production of porcine embryos, including in vitro maturation of oocytes followed by in vitro fertilization and in vitro culture, may result in live offspring, but it is still associated with great inefficiencies. In mammalian oocytes, acquisition of meiotic competence coincides with a decrease in general transcriptional activity at the end of the oocyte growth phase. In this study, we investigated the expression and sub‐cellular localization of CDK9, a RNA polymerase II CTD kinase during pig oocyte growth. Localization and expression of components involved in mRNA and rRNA transcription were assessed by immunocytochemistry in growing and fully‐grown oocytes. In addition, meiotic resumption, germinal vesicle breakdown and nuclear transcription were analyzed in oocytes cultured in presence of a potent CDK9 inhibitor, flavopiridol. Our analyses, demonstrated that CDK9 became co‐localized partially with phosphorylated Pol II CTD and mRNA splicing complexes. Surprisingly, CDK9 was co‐localized with Pol Ispecific transcription factor, UBF, and gradually localized in nucleolar peripheries at the final steps of oocyte growth. Treatment with flavopiridol resulted in arrest in meiotic resumption, germinal vesicle breakdown as well as a decline in global transcription. All together, this data suggest that CDK9 has a dual role in both Pol I‐ and Pol II‐dependent transcription in pig oocyte growth.

In this study, we examined the effectiveness of in vitro fertilization of porcine immature oocytes on the embryo development of blastocysts or hatched blastocysts and the number of cells according to the in vitro fertilization conditions. In the in vitro fertilization of in vitro matured porcine oocytes, there were no significant differences between treatment groups regarding fertilization rate, blastocyst rate, and embryo development of hatched blastocysts according to the storage periods of liquid sperm of 24, 48, and 72 hours. The embryo development rate of hatched blastocysts after the fertilization according to different spermatozoa concentrations (, , and cells/ml) showed the highest rate in the group with a spermatozoa concentration of cells/ml; in particular, this rate was significantly higher than that in the cells/ml group (p<0.05). The total number of blastocysts cells as well as trophectoderms (TE) that developed in each treatment group were also significantly higher in the cells/ml group than in any other groups (p<0.05). In contrast, the embryo development rate of blastocysts according to different co-incubation periods of sperm and oocyte (1, 3, and 6 hr) was high in the 6-hour group; in particular, the rate was significantly higher than that of the I-hour group (p<0.05). Furthermore, the total number of oocytes cells and TEs that developed was significantly higher in the 6-hour group than any other group (p<0.05). In this study, the most effective treatment conditions for porcine embryo development and high cell number were found to be as follows: a sperm storage period of less than 72 hours, a spermatozoa concentration of cells/ml, and a 6-hour co-incubation period for sperm and ooocyte.

Our goal was to examine the effects of early denudation on the enucleation efficiency and developmental competence of embryos following somatic cell nuclear transfer (SCNT) and parthenogenetic activation (PA). Oocytes were denuded following 30 h of in vitro maturation (IVM) and then cultured with (D+) or without (D-) their detached cumulus cells for additional h. Control oocytes were denuded after h of IVM. The size of the perivitelline space was larger at 40 h of IVM () than at 30 h ( p<0.01). The distances between the metaphase II (M II) plates and the polar bodies (PBs) were shorter in D+ () and D- oocytes () than in control oocytes ( p<0.01). Enucleation rates following blind aspiration at 40 h of IVM were higher (p<0.01) in D+ (92%) and D- oocytes (93%) compared to controls (82%). Early denudation did not affect oocyte maturation or the in vitro development of SCNT and PA embryos. When SCNT embryos from D+ oocytes were transferred to four gilts, pregnancy was established in two pigs, and one of them farrowed three live piglets. In conclusion, early denudation of oocytes at 30 h of IVM could improve the enucleation efficiency by maintaining the M II plate and the PB within close proximity and support the in vivo development of SCNT embryos to term.