1.The effects of murine cytomegalovirus on the maturation, fertilization, cleavage and blastula formation of mouse oocytes in vitro.
Xinrong, WANG ; Xinhong, ZHANG ; Suhua, CHEN ; Guijin, ZHU ; Jihui, AI
Journal of Huazhong University of Science and Technology (Medical Sciences) 2007;27(4):468-70
To study the effects of mouse cytomegalovirus (MCMV) on the in vitro maturation, fertilization, cleavage and blastula formation of mouse oocytes, the immature oocytes were infected in vitro by MCMVs of different dosages (100 TCID(50), 10 TCID(50) and 1 TCID(50)). The oocytes were then observed for in vitro maturation, fertilization, cleavage and blastula formation and the ultrastructural changes after the culture with the viruses. Our results showed that no significant differences were found in IVM, IVF, cleavage and blastula formation among the groups treated with of virus of various dosages. And ultrastructural abnormality was observed in the oocytes treated by 100 TCID(50) of viruses. It is concluded that MCMV did not have any conspicuous effects on IVM, IVF, cleavage and blastula formation of murine immature oocytes.
Blastocyst
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Cells, Cultured
;
Cleavage Stage, Ovum
;
Cytomegalovirus Infections
;
Fertilization
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Muromegalovirus/*pathogenicity
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Oocytes/cytology
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Oocytes/growth & development
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Oocytes/*virology
2.Effects of Age on in vitro Maturation and Fertilization of Immature Oocytes from Stimulated Cycles in Human IVF-ET Program.
Sang Hoon HAN ; Jung Ryeol LEE ; Hyun Jun KIM ; Jung Hee MOON ; Byung Chul JEE ; Seung Yup KU ; Chang Suk SUH ; Seok Hyun KIM ; Young Min CHOI ; Jung Gu KIM ; Shin Yong MOON
Korean Journal of Fertility and Sterility 2005;32(4):331-336
OBJECTIVE: To investigate the effects of female age on in vitro maturation and fertilization of immature oocytes from controlled ovarian hyperstimulation (COH) in human IVF-ET program. METHOD: A total of 96 immature oocytes (GV & metaphase I) obtained from 40 cycles of IVF-ET (29 patients). The mean age of female patients was 31.8+/-3.1 years. Ovulation was triggered by urinary or recombinant hCG. Immature oocytes were cultured with YS medium containing 30% of patients' human follicular fluids, LH (1 IU/mL), FSH (1 IU/mL) and EGF (10 ng/mL), and then matured oocytes were fertilized by ICSI. In vitro maturation and fertilization of immature oocytes were analyzed according to age of female (< 34 or > or = 34 years). RESULTS: The maturation rate was similar between two groups (68% vs 64%). The fertilization rate of in?vitro-matured oocytes was higher in patients < 34 years old, but there was no statistical significance (64% vs 50%, p=0.347). The fertilization rate of in-vitro-matured oocytes was significantly lower compared with those of in-vivo-matured oocytes in both age groups (64% vs 79%, p=0.035, 50% vs 86%, p=0.007). CONCLUSION: In older female group, fertilization rate of in-vitro-matured oocytes seems to be decreased. Further investigations should be warranted to increase fertilization potential of in-vitro-matured oocytes.
Adult
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Epidermal Growth Factor
;
Female
;
Fertilization*
;
Follicular Fluid
;
Humans*
;
Metaphase
;
Oocytes*
;
Ovulation
;
Sperm Injections, Intracytoplasmic
3.Progress in proteomics of mammalian oocyte and early embryo.
Lingsheng CHEN ; Ping XU ; Deshun SHI ; Xiangping LI
Chinese Journal of Biotechnology 2014;30(7):1018-1025
The development of female germ cell is the cornerstone for animal reproduction. Mammalian oocyte and early embryo have many distinct phenomena and mechanisms during their growth and development, involving series dynamic changes of protein synthesis/degradation and phosphorylation. Research on the regulatory mechanism of oocyte division, maturation, and developmental principle of pre-implantation embryo is an important topic in the field of animal developmental biology. Proteomics using all of proteins expressed by a cell or tissue as research object, systematically identify, quantify and study the function of all these proteins. With the rapid development of protein separation and identification technology, proteomics provide some new methods and the research contents on fields of oogenesis, differentiation, maturation and quality control, such as protein quantification, modification, location and interaction important information which other omics technology can not provide. These information will contribute to uncover the molecular mechanisms of mammalian oocyte maturation and embryonic development. And it is great significant for improving the culture system of oocyte in vitro maturation, the efficiency of embryo production in vitro, somatic cell clone and transgenic animal production.
Animals
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Cells, Cultured
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Embryonic Development
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Female
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Humans
;
Mammals
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growth & development
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Oocytes
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metabolism
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Oogenesis
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Pregnancy
;
Proteomics
4.Ooplasmic transfer: problems and prospects.
Wei-ren DONG ; Xin-xia QIU ; Ying-hua CHEN ; Bing-lei ZHAO
Journal of Southern Medical University 2006;26(8):1079-1082
Cytoplasmic transfer between human oocytes, which represents a complete cytoplasmic exchange, has been performed recently as a means to improve the outcome of assisted reproduction and becomes a hotspot of researches. Many studies have indicated that mitochondria in the oocytoplasm obviously affect fertilization of the oocytes and early embryo development. However, ooplasmic transfer can lead to mitochondrial DNA heteroplasmy and the prospect of mitochondrial heteroplasmy and its potential problems necessitate further studies. The authors reviews the ooplasmic transfer, the relation between ooplasm and fertilization and embryo development, and the mitochondrial heteroplasmy. The authors also propose a new theory of "reverse cloning technique".
Cytoplasm
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transplantation
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Embryonic Development
;
Female
;
Fertilization in Vitro
;
methods
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Humans
;
Oocyte Donation
;
methods
;
Oocytes
;
cytology
;
growth & development
5.In vitro growth of mouse preantral follicles: effect of animal age and stem cell factor/insulin-like growth factor supplementation.
Byung Chul JEE ; Jee Hyun KIM ; Da Hyun PARK ; Hyewon YOUM ; Chang Suk SUH ; Seok Hyun KIM
Clinical and Experimental Reproductive Medicine 2012;39(3):107-113
OBJECTIVE: To determine whether animal age impacts in vitro preantral follicle growth. Effects of hCG, stem cell factor (SCF), and/or insulin-like growth factor (IGF) supplementation in growth medium were also investigated. METHODS: Intact preantral follicles were mechanically isolated from fresh ovaries of BDF1 mice and cultured in growth medium for 9 to 11 days. Surviving follicles with antrum formation were transferred to maturation medium for 14 to 18 hours. Follicle survival, antrum formation, and retrieval of metaphase II (MII) oocytes were compared among three age categories (4-5, 7-8, and 10-11 week-old). By using 7- to 8-week-old mice, preantral follicles were cultured in growth medium supplemented with hCG (0, 5, or 10 mIU/mL), SCF (50 ng/mL), IGF-1 (50 ng/mL), and SCF+IGF-1. RESULTS: Seven- to eight-week-old mice showed a higher follicle survival and antrum formation and produced more MII oocytes compared to other groups. In the 7- to 8-week-old mice, supplementation of 5 mIU/mL hCG significantly enhanced the antrum formation but the percentage of MII oocytes was similar to that of the control. Supplementation of SCF+IGF-1 did not enhance follicle survival or antrum formation but the percentage of MII oocytes increased modestly (39.1%) than in the control (28.6%, statistically not significant). CONCLUSION: Seven- to eight-week-old mice showed better outcomes in growth of preantral follicles in vitro than 4- to 5- or 10- to 11-week-old mice. Supplementation of hCG enhanced antrum formation and supplementation of SCF+IGF-1 yielded more mature oocytes; hence, these should be considered in the growth of preantral follicles in vitro.
Animals
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Female
;
Humans
;
Insulin-Like Growth Factor I
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Metaphase
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Mice
;
Oocytes
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Ovarian Follicle
;
Ovary
;
Stem Cell Factor
;
Stem Cells
6.The Maturation in Vitro of The Rabbit Oocytes I. Amino Acids Support the Maturation In Vitro of the Rabbit Oocytes.
Soon O CHUNG ; In Ha BAE ; Wan Kyoo CHO
Yonsei Medical Journal 1974;15(1):11-16
Rabbit follicular oocytes were cultured in a medium supplemented with various elements such as bovine serum(RS), bovine serum albumin(BSA), amino acids and chorionic gonadotrophic hormone(HCG) in order to find which factors among them were most effective for oocyte maturation. The presence of BSA in the basic medium (modified Krebs-Ringer bicarbonate) did not elevate the proportion of oocyte maturation. When BS alone was added to the medium, only a few oocytes could reach to metaphase I and most of them were in degeneration. This implies that BS may act as an inhibitory or a toxic agent to the rabbit oocytes. It was found that the medium supplemented with 0.4% BSA and amino acids together raised the proportion of the oocyte maturation (54-62%). Especially the presence of proline, or of both proline and glutamine, gave a more favourable condition for the initiation of meiotic division than other amino acids. Addition of HCG to the medium did not promote the proportion of the oocyte maturation. As a consequence, it is apparent that amino acids in the medium are the most essential factors in inducing oocyte meiotic division.
Amino Acids/pharmacology*
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Animal
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Chorionic Gonadotropin/pharmacology
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Culture Media*
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Female
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Growth
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Oocytes/physiology*
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Ovum/physiology*
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Rabbits
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Serum Albumin, Bovine/pharmacology
7.Perinatal Outcomes of Pregnancy with Assisted Reproductive Technology.
Korean Journal of Perinatology 2015;26(2):114-120
Assisted reproductive technology (ART) is defined as any treatment and procedure associated with the handling of human oocytes, sperms or embryos for the purpose of establishing a pregnancy. As the use of ART has been dramatically increasing over 3 decades and the number of babies born by ART are increasing, it is important to consider perinatal outcomes of pregnancies with ART including structural abnormalities, growth and development, as well as the clinical pregnancy rate and the live-birth rate with regard to the parameters assessing the success of ART. Clinicians should be aware of maternal and perinatal outcomes in pregnancy with ART and infertile couples considering ART should be thoroughly counseled on these issues. In this article, the perinatal outcomes of pregnancy with ART will be reviewed.
Embryonic Structures
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Family Characteristics
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Fertilization in Vitro
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Growth and Development
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Humans
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Oocytes
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Pregnancy Rate
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Pregnancy*
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Reproductive Techniques, Assisted*
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Spermatozoa
8.Thickness of cumulus cell layer is a significant factor in meiotic competence of buffalo oocytes.
Hassan M WARRIACH ; Kazim R CHOHAN
Journal of Veterinary Science 2004;5(3):247-251
This study evaluated the meiotic competence of buffalo oocytes with different layers of cumulus cells. A total of 588 oocytes were collected from 775 ovaries averaging 0.78 oocytes per ovary. Oocytes with homogenous cytoplasm (n = 441) were selected for in vitro maturation (IVM) and divided into four groups based on their cumulus morphology: a) oocytes with > or == 3 layers of cumulus cells, b) 1-2 layers of cumulus cells and oocytes with partial remnants or no cumulus cells to be cocultured c) with or d) without cumulus cells. Oocytes in all four groups were matured in 100 microL drop of TCM-199 supplemented with 10microgram/mL follicle stimulating hormone (FSH), 10microgram/mL luteinizing hormone (LH), 1.5microgram/mL estradiol, 75microgram/mL streptomycin, 100 IU/mL penicillin, 10 mM Hepes and 10% FBS at 39degrees C and 5% CO2 for 24 hours. After IVM, cumulus cells were removed from oocytes using 3 mg/mL hyaluronidase, fixed in 3% glutaraldehyde, stained with DAPI and evaluated for meiotic competence. The oocytes with > or ==3 layers of cumulus cells showed higher maturation rates (p <0.05: 64.5%) than oocytes with partial or no cumulus cells (8.6%) and oocytes co-cultured with cumulus cells (34.5%) but did not differ from oocytes having 1-2 layers of cumulus cells (51.4%). The degeneration rates were higher (p < 0.05) for oocytes with partial or no cumulus cells (51%) than rest of the groups (range: 13.8% to 17.4%). These results suggest that buffalo oocytes with intact layers of cumulus cells show better IVM rates than oocytes without cumulus cells and the co-culture of poor quality oocytes with cumulus cells improves their meiotic competence.
Animals
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Buffaloes/*physiology
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Female
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Fluorescent Dyes/chemistry
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Indoles/chemistry
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Meiosis/*physiology
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Microscopy, Fluorescence/veterinary
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Oocytes/cytology/growth&development/*physiology
9.Advanced studies on ovary physiology in China in the past 30 years.
Acta Physiologica Sinica 2016;68(4):366-384
Follicular development and differentiation are sequential events which are tightly regulated by endocrine hormones, intraovarian regulators and cell-cell interactions. Balanced cell proliferation and apoptosis play an important role in the selection of dominant follicle. Primordial germ cell migration and homing within the gonadal ridge requires regulation by integrated signals, such as the oocyte-secreted polypeptide growth factors, the growth and differentiation factor 9, the bone morphogenetic proteins, stem cell factor (SCF), basic fibroblast growth factor (bFGF), the transcription factor Wilms' tumour 1 (Wt1), and involves the contact of primordial germ cells with extra-cellular matrix proteins and cellular substrates and attraction by the developing gonads. Maturation of cumulus-oocyte complexes and ovulation are directly controlled by luteinizing hormone (LH) and require activation of mitogen-activated protein kinase in granulosa cells. In this review, the key molecules involved in the cell-cell interaction and signal transduction during follicular development, differentiation and ovulation will be summarized, mainly focusing on the signaling factors produced by oocyte and the somatic cells.
Cell Differentiation
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China
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Female
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Granulosa Cells
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Growth Differentiation Factor 9
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Humans
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Mitogen-Activated Protein Kinases
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Oocytes
;
Ovary
;
Signal Transduction
10.Energy Demand and Its Regulatory Mechanism during Folliculogenesis.
Hao Yan TU ; Xiao Can LEI ; Peng HUO ; Jiang Hua LE ; Shun ZHANG
Acta Academiae Medicinae Sinicae 2019;41(3):408-414
The growth and development of follicles are regulated by genes,hormones and growth factors autocrined and paracrined from granulosa cells,theca cells,and oocytes.Products of glycolysis from granulosa cells such as pyruvate and lactate are one of the main energy sources,which play an important role during folliculogenesis and follicle maturity.Studies on the changes of the products and rate-limiting enzymes during granulosa cells' glycolysis help to clarify the molecular mechanism of energy demand in folliculogenesis and guide the clinical treatment of infertility due to abnormal follicular development.This article reviews recent research advances in the energy demand and regulatory mechanism in different states of folliculogenesis.
Energy Metabolism
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Female
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Glycolysis
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Granulosa Cells
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Humans
;
Intercellular Signaling Peptides and Proteins
;
Oocytes
;
Ovarian Follicle
;
growth & development
;
Theca Cells