Bacterial infections in the female reproductive tract negatively affect ovarian function, follicular development, and embryo development, leading to the eventual failure of fertilization. Moreover, bacterial lipopolysaccharides (LPS) can interfere with the immune system and reproductive system of the host animal. Therefore, this study examined the effect of LPS on the in vitro maturation (IVM) of pig oocytes. Oocytes were matured in TCM199 medium in the presence of varying concentrations of LPS (0 - 50 ㎍·mL-1). The maturation rate, cortical granules (CGs) migration, and chromosome alignment were subsequently evaluated during the meiotic development of the oocytes. We observed a dose-dependent and significant decrease in the metaphase II (MII) rate with increasing concentrations of LPS (97.6% control [0 ㎍·mL-1 LPS] vs. 10.4-74.9% LPS [1 - 50 ㎍·mL-1], p < 0.05). In addition, compared to the control oocytes without LPS, higher levels of abnormal CGs distribution (18.1 - 50.0% LPS vs. 0% control), chromosome/spindle alignment (20.3 - 56.7% LPS vs. 0% control), and intracellular ROS generation were observed in oocytes matured with LPS (p < 0.05). Nitrite levels were also increased in the maturation medium derived from the oocytes matured with LPS (p < 0.05). These results indicate that LPS induces oxidative stress during IVM and affects oocyte maturation, including CGs migration and chromosome alignment of pig oocytes.
Lim, Kyung Sil;Chae, Soo Jin;Choo, Chang Woo;Ku, Yeon Hee;Lee, Hye Jun;Hur, Chang Young;Lim, Jin Ho;Lee, Won Don
Clinical and Experimental Reproductive Medicine
/
v.40
no.4
/
pp.143-147
/
2013
Oocyte in vitro maturation (IVM) is an assisted reproductive technology in which oocytes are retrieved from the antral follicles of unstimulated or minimally stimulated ovaries. IVM of human oocytes has emerged as a promising procedure. This new technology has advantages over controlled ovarian stimulation such as reduction of costs, simplicity, and elimination of ovarian hyperstimulation syndrome. By elimination or reduction of gonadotropin stimulation, IVM offers eligible infertile couples a safe and convenient form of treatment, and IVM outcomes are currently comparable in safety and efficacy to those of conventional in vitro fertilization. IVM has been applied mainly in patients with polycystic ovary syndrome or ultrasound-only polycystic ovaries, but with time, the indications for IVM have expanded to other uncommon situations such as fertility preservation, as well as to normal responders. In this review, the current clinical experiences with IVM will be described.
Cheruveetil, Mohammed Ashraf;Shetty, Prasanna Kumar;Rajendran, Arya;Asif, Muhammed;Rao, Kamini A
Clinical and Experimental Reproductive Medicine
/
v.48
no.4
/
pp.352-361
/
2021
Objective: The study assessed the developmental potential of germinal vesicle (GV) oocytes subjected to in vitro maturation (IVM) after prematuration culture with cilostamide (a phosphodiesterase-3 inhibitor) and the impact of cilostamide exposure on the morphology of meiosis II (MII) oocytes and subsequent embryo quality. Methods: In total, 994 oocytes were collected from 63 patients. Among 307 GV oocytes, 140 oocytes were selected for the experimental group and 130 oocytes for the control group. The denuded GV-stage oocytes were cultured for 6 hours with cilostamide in the experimental group and without cilostamide in the control group. After 6 hours, the oocytes in the experimental group were washed and transferred to fresh IVM medium. The maturational status of the oocytes in both groups was examined at 26, 36, and 48 hours. Fertilization was assessed at 18 hours post-intracytoplasmic sperm injection. Embryo quality was assessed on days 3 and 5. Results: In total, 92.1% of the oocytes remained in the GV stage, while 6.4% converted to the MI stage (p<0.01) after cilostamide exposure. In both groups, more MII oocytes were observed at 36 hours (25.8% vs. 21.5%) than at 26 hours (10.8% vs. 14.6%) and 48 hours (13% vs. 7.9%) (p>0.05). With the advent of cilostamide, blastocyst quality was better in the experimental group than in the control group (p<0.05). Conclusion: Cilostamide effectively blocked nuclear maturation and promoted cytoplasmic growth. Prematuration culture with cilostamide enabled synchronization between cytoplasmic and nuclear maturity, resulting in better blastocyst outcomes.
Ji, Mi-Ran;Cheong, Hee-Tae;Yang, Boo-Keun;Lee, Chae-Sik;Park, Choon-Keun
Reproductive and Developmental Biology
/
v.34
no.3
/
pp.217-221
/
2010
When fully grown oocytes are removed from their follicles, they can resume meiosis and mature spontaneously under in vitro conditions. However, nuclear maturation under in vitro condition is not accompanied by complete cytoplasmic maturation, which is essential for successful fertilization and the initiation of zygotic development. This study analyzed change of proteins in follicular fluids during the porcine follicular development. Follicular fluids were collected from follicles of diameter 1~2 mm, 2~6 mm and 6~10 mm in ovary of slaughtered pigs. Total proteins were extracted from follicular fluids by M-PER Mammalian Protein Extraction Reagent. We confirmed totally 27 same spots, 1 spot from follicle fluid of 2~6 mm follicle and 5 spots from follicle fluid of 6~10 mm in diameter were analyzed by MALDI mass spectrometry and searched on NCBInr. In results, spot No. 28 from 2~6 mm follicle was Ig lambda chain C region, and spot No.32 and 33 from 6~10 mm was Apolipoprotein A-(APOA4). Spot No.29 and 31 were failed to analyze. These results indicate that the porcine oocyte during in vitro maturation depend on specific different expressed proteins may play an important roles in the sequence of molecular events in porcine oocyte maturation and follicular development.
Response of the oocytes to parthenogenetic activation is one of the indice for cytoplasmic maturation. Maturational age-dependent parthenogenetic activation was examined in bovine oocytes. Follicular oocytes recovered from the slaughter house ovaries were matured in vitro in TCM 199+15% FCS+1Oiu/ml PMSG +10 iu/ml hCG from 24 to 48 h at 6 h intervals. The in vitro matured oocytes were activated by 7% ethanol for 7 min. The nuclear maturation and the cytoplasmic maturation were analysed by the nuclear configuration and pronuclei formation stained by rapid staining method. Cumulus oophori expansion increased as the maturation time increased. Proportions of the nuclear maturation were 81, 89, 72, 60 and 60% in IVM 24, 30, 36, 42 and 48 h groups, respectively. Abnor¬mality in metaphase II chromosome increased sharply from 36 h IVM. The rates of the pronuclei formation and diploid upon ethanol activation were 67, 68, 73, 84 and 87%, and 4, 5, 10, 16 and 20% in IVM 24, 30, 36, 42 and 48 h groups, respectively. It was suggested that maturational age increased the formation of the pronuclei and diploid, and that cytoplasmic maturation require longer maturation period than normal nuclear maturation. These results should be useful for determination of an appropriate time for fertilization in mammalian eggs matured or preincubated in vitro.
An, So-Jung;Jee, Byung-Chul;Moon, Jeong-Hee;Lee, Jung-Ryeol;Suh, Chang-Suk;Kim, Seok-Hyun
Clinical and Experimental Reproductive Medicine
/
v.35
no.4
/
pp.285-291
/
2008
Objective: This study was performed to investigate whether cumulus morphology and oocyte diameter influence on in vitro maturation (IVM) of human germinal vesicle (GV) stage oocytes obtained from stimulated in vitro fertilization (IVF) cycles. Methods: Forty-one GV stage oocytes were obtained from 21 patients who received ovarian hyperstimulation and IVF. According to cumulus morphology before denudation, GV oocytes were classified into oocytes with dispersed cumulus cells (CCs) or compacted CCs. The diameters of denuded oocytes, both including and excluding the zona pellucida, were measured. All oocytes were cultured in commercial IVM medium. Maturation was defined as extrusion of the first polar body and the matured oocytes were inseminated by ICSI method. Results: Overall maturation and fertilization rate were 56.1% and 73.9%. Matured oocytes had significantly higher proportion of oocytes with dispersed CCs compared to oocytes failed to mature (91.3% vs. 55.6%, p=0.023). There were no significant differences of oocytes outer ($155.7{\mu}m$ vs. $152.4{\mu}m$, NS), inner ($114.3{\mu}m$ vs. $113.4{\mu}m$, NS) diameters and zona thicknesses ($41.3{\mu}m$ vs. $39.1{\mu}m$, NS) between matured and not-matured oocytes. In-vitro maturation rate of oocytes with dispersed CCs was significantly higher than which of oocytes with compacted CCs (67.7% vs. 20.0%, p=0.044). Oocyte diameters (outer and inner) and thicknesses were not related with maturational competence. Conclusion: Our results suggest that in vitro maturational competence of GV stage oocytes obtained from stimulated IVF cycles is closely associated with the cumulus morphology but not oocyte diameter.
This study was carried out to investigate the effects of liquid boar sperm stored at 4$^{\circ}C$ on sperm motility, normal acrosome, and in-vitro fertilization and culture of pig oocytes matured in-vitro. The sperm-rich fraction (30~60 ml) of ejaculate was collected into an insulated vacuum bottle. Semen was slowly cooled to room temperature (20~23$^{\circ}C$) by 2 h after collection. Semen was transferred into 15 ml tubes, centrifuged at room temperature for 10 min at 800$\times$g, and the supernatant solution was poured off. The concentrated sperm was resuspended with 5 ml of lactose, egg yolk and N-acetyl-D-glucosamine (LEN) diluent to provide 1.0$\times$10$^{9}$ sperm/ml at room temperature. The resuspended semen was cooled in a refrigerator to 4$^{\circ}C$ and preserved for 5 days to examine sperm motility and normal acrosome. The medium used for oocyte maturation was modified tissue culture medium (TCM) 199. After about 22 h of culture, oocytes were cultured without cysteamine and hormones for 22 h at 38.5$^{\circ}C$, 5% $CO_2$ in air. Oocytes were inseminated with liquid boar sperm stored at 4$^{\circ}C$ for 2 days after collection. Oocytes were coincubated for 6 h in 500 ${mu}ell$ mTBM fertilization media with 0.2, 1, 5 and 10$\times$10$^{6}$ /ml sperm concentration, respectively. At 6 h after IVF, oocytes were transferred into 500 ${mu}ell$ Hepes-buffered NCSU-23 culture medium for further culture of 6, 48 and 144 h. There were significant differences in sperm motility and normal acrosome among preservation days and incubation times, respectively. The rates of sperm penetration and polyspermy were higher in 5 and 10$\times$10$^{6}$ sperm/ml than in 0.2 and 1$\times$10$^{6}$ sperm/ml. Male pronuclear formation was lower in 0.2$\times$10$^{6}$ sperm/ml than in 1, 5 and 10$\times$10$^{6}$ sperm/ml. Mean numbers of sperm in penetrated oocyte were highest in 10$\times$10$^{6}$ sperm/ml compared with other sperm concentrations. The rate of blastocysts from the cleaved oocytes (2~4 cell stage) was highest in 1$\times$10$^{6}$ sperm/ml compared with other sperm concentrations. In conclusion, we found out that liquid boar sperm stored at 4$^{\circ}C$ could be used for in-vitro fertilization of pig oocytes matured in-vitro. Also, we recommend 1$\times$10$^{6}$ ml sperm concentration for in-vitro fertilization of pig oocytes.
Kim, Sung Woo;Kim, Min Su;Kim, Chan-Lan;Kim, Dongkyo;Kim, Namtae;Seong, Hwan-Hoo
Journal of Embryo Transfer
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v.31
no.3
/
pp.185-190
/
2016
During the ovary preservation in low temperature, the cumulus oocyte complexes(COCs) lose their developmental competences after in vitro fertilization. We used phosphate-buffered saline (PBS) as a basic solutions of at various temperatures (25, 15 or $5^{\circ}C$) and supplemented them with 1mM glucose and 0.5mM glutamine as a source of carbohydrate metabolites. After recovery of COCs and in vitro fertilization, a significantly higher number of oocytes developed into blastocysts. The developmental competence of embryos that were originated from ovaries preserved at $15^{\circ}C$ was increased compared to those of 25 or $5^{\circ}C$. The maturation rate of oocytes was not differed between 24 and 36 h at $15^{\circ}C$ but showed lower than control group (71% versus 78%). In vitro-fertilized oocytes from ovaries stored at $25^{\circ}C$ for 24 h or at $5^{\circ}C$ for 24 h had a significantly decreased developmental potentials, but at $15^{\circ}C$ did not (27% versus 29% of blastocysts to develop into day 8). With these results, bovine ovaries can be preserved at $15^{\circ}C$ for 36 h without decreasing developmental capacity of in vitro-fertilized oocyte at least to the blastocyst stage. This information provides valuable information of preserving ovaries for embryo transfer or in vitro embryo production.
Moawad, Adel R.;Ghoneim, Ibrahim M.;Darwish, Gamal M.;Badr, Magdy R.;El-Badry, Diya A.;EL-Wishy, Abou Bakr A.
Journal of Animal Reproduction and Biotechnology
/
v.35
no.2
/
pp.119-141
/
2020
The Dromedary camel (Camelus dromedaries) is an important species because of its ability to produce good quality meat, milk, and fibers under harsh environmental conditions. Camels are also crucial for transportation, racing, and as draft animals in agriculture. Therefore, dromedary camels play a critical role in the economy for millions of people living in the arid part of the world. The inherent capability of camels to produce meat and milk is highly correlated with their reproductive performance. Compared with other domestic species, the reproductive efficiency in camelids is low. Although recent reproductive technologies such as in vitro fertilization (IVF) and somatic cell nuclear transfer (SCNT) have been successfully applied to camelids and the birth of live offspring following these technologies has been reported; in vitro embryo production (IVP) has lagged in this species. The development of the IVP system for dromedary camels may be a useful tool for the genetic improvement of this species. IVP in farm animals includes three main steps; in vitro maturation (IVM) of an oocyte, IVF of a matured oocyte, and in vitro culture (IVC) of fertilized oocyte up to the blastocyst stage. This review aims to summarize various factors that influence oocyte quality, IVM, and in vitro embryo development in dromedary camel.
This study was conducted to develop a method for production of nuclear transplant bovine embryos using in vitro-matured (IVM) oocytes and to examine the effect of different conditions of electrofusion on fusion rate and developmental capacity of donor nucleus transplanted to enucleated oocytes. Eight- to sixteen-cell embryos derived from oocytes matured and fertilized in vitro used as donor blastomeres and IVM oocytes were used as recipient oocytes. Oocytes were enucleated immediately after 23-24 h IVM and then reconstituted with a donor blastomere in two different micromanipulation media. Fusion rate and subsequent development of the reconstituted oocytes was compared under the different electric stimuli and recipient oocyte ages. Success rate of enucleation was significantly higher in TCM-199 medium containing FCS than in DPBS. The high fusion rate(75-94%) and development (6.4-14.8%) to morulae and blastocyst (M + B) were obtained from 0.6-0.75 kV/cm DC voltage, although total cleavage was not different among the electric pulses. Most optimal condition of electric stimulation for fusion and development was 1 DC voltage of 0.75 kV/cm, in which 80.5% of oocytes were fused, 80.0% and 31.7% of which was cleaved and developed to M + B, respectively. No M + B was obtained from 1.2 kV/cm DC voltage regardless of pulse frequency. Recipint oocyte age at electrofusion greatly affected the cleavage and subsequent development to M + B, showing high rate at 40-41 h oocyte maturation. These results suggest that a suitable condition of electrofusion for donor nuclei derived from IVF may be 1-2 DC pulses of 0.7 kV/cm for $70{\mu}sec$ and that processing of a transplanted nucleus in IVM oocytes may be affected by maturation age of recipient oocytes.
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