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101. Alterations in the transcriptome of porcine oocytes derived from prepubertal and cyclic females is associated with developmental potential

Author

J. Fleming-Waddell, D. Spurlock, Christopher A. Bidwell, Ye Yuan, Melissa Paczkowski, and Rebecca L. Krisher

Subjects
medicine.medical_specialty, Microarray, Swine, Biology, Transcriptome, Splicing factor, Internal medicine, Genetics, medicine, Animals, Blastocyst, Sexual Maturation, Gene, Oligonucleotide Array Sequence Analysis, Chi-Square Distribution, Reverse Transcriptase Polymerase Chain Reaction, Gene Expression Profiling, Gene Expression Regulation, Developmental, General Medicine, Oocyte, medicine.anatomical_structure, Real-time polymerase chain reaction, Endocrinology, Oocytes, RNA, Animal Science and Zoology, DPYD, Female, Food Science
Abstract

The developmental competence of oocytes is progressively attained as females approach puberty. The poor quality of prepubertally derived oocytes suggests that essential processes during cy- toplasmic maturation have not been completed. The objective of this experiment was to identify genes in oocytes that are associated with good (cyclic females) and poor (prepubertal females) developmental com- petence. Development to the blastocyst stage in vitro was significantly decreased in oocytes derived from pre- pubertal females compared with cyclic females (5.26 and 12.86%, respectively). Approximately 10% of the oocyte transcriptome was differentially expressed be- tween in vitro-matured oocytes derived from cyclic and prepubertal females (P < 0.05); 58% of differentially expressed genes had increased transcript abundance in oocytes derived from cyclic females. Genes involved in the metabolism and regulation of biological processes had increased transcript abundance in oocytes derived from cyclic females, whereas genes involved in transla- tion were increased in prepubertally derived oocytes. Quantitative PCR confirmed differential expression (P < 0.05) for 6 out of 11 selected genes (DPYD (dihydro- pyrimidine dehydrogenase), RDH11 (retinol dehydro- genase 11), SFRS4 (serine/arginine-rich splicing factor 4), SFRS7 (serine/arginine-rich splicing factor 7), TL4 (transcribed loci 4), and TOP2B (topoisomerase II β)) that were differentially expressed with greater than a 2-fold change by microarray, although 3 of these genes, DPYD, TL4, and TOP2B, were in opposing directions by the 2 methods. In conclusion, expression of multiple genes involved in metabolism and translation was sig- nificantly altered in oocytes from prepubertal females compared with cyclic females, which was associated with reduced in vitro development to the blastocyst stage. These genes may represent important cellular mechanisms that regulate oocyte quality.

Published
2011

102. Identification of developmental competence-related genes in mature porcine oocytes

Author

Jennifer M. Ida, Rebecca L. Krisher, Ye Yuan, and Melissa Paczkowski

Subjects
Swine, In Vitro Oocyte Maturation Techniques, Polymerase Chain Reaction, ACSL3, Antibodies, Article, Andrology, Splicing factor, Genetics, medicine, Animals, Blastocyst, Genes, Developmental, Sexual Maturation, Gene, Analysis of Variance, Cumulus Cells, biology, Tumor Necrosis Factor-alpha, Gene Expression Profiling, Aldolase A, Gene Expression Regulation, Developmental, Proteins, Reproducibility of Results, Cell Biology, Oocyte, Molecular biology, Gene expression profiling, medicine.anatomical_structure, biology.protein, Oocytes, Female, Cell Adhesion Molecules, Developmental Biology
Abstract

Oocyte competence is a key factor limiting female fertility, yet the underlying molecular mechanisms that contribute to oocyte competence remain unclear. The objective of this study was to elucidate specific genes whose function contributes to oocyte competence. We observed that 6 of 20 target genes examined were differentially expressed between adult (more competent) and prepubertal (less competent) porcine in vitro matured (IVM) oocytes. These genes were the cholesterol synthesis related gene HMG-CoA reductase (HMGCR), fatty acid oxidation genes acyl-CoA synthetase long-chain family member 3 (ACSL3) and long-chain acyl-CoA dehydrogenase (ACADL), glycolytic genes fructose 1,6 bisphosphate aldolase (ALDOA) and lactate dehydrogenase C (LDHC), and tumor necrosis factor-α (TNF). These 6 genes, as well as 3 other genes (porcine endogenous retrovirus (PERV), transcribed loci 10 (TL10), serine/arginine-rich splicing factor 1 (SRSF1)), were further analyzed by comparing transcript abundance in IVM and in vivo matured (VVM) prepubertal and adult porcine oocytes. Among these 9 target genes, five were differentially expressed between IVM and VVM prepubertal oocytes, while eight genes were differentially expressed between IVM and VVM adult oocytes. None was differentially expressed between VVM prepubertal and adult oocytes. A functional study of TNF demonstrated that depletion of endogenous TNF decreased oocyte competence and TNFAIP6 expression in cumulus cells, while TNF in IVM medium regulated TNFAIP6 expression in cumulus cells. Differential expression of the genes identified in this study suggests that these genes may be functionally relevant to oocyte competence.

Published
2011

104. Effects of supplemental progesterone on the development, metabolism and blastocyst cell number of bovine embryos produced in vitro

Author

J. E. Larson, Rebecca L. Krisher, and G. Cliff Lamb

Subjects
medicine.medical_specialty, animal structures, Cleavage Stage, Ovum, Embryonic Development, Cell Count, Reproductive technology, Fertilization in Vitro, Biology, Cryopreservation, Embryo Culture Techniques, Endocrinology, Internal medicine, Pyruvic Acid, Genetics, medicine, Animals, Blastocyst, Molecular Biology, reproductive and urinary physiology, Fertilisation, Gametogenesis, Progesterone, Embryogenesis, Embryo culture, Embryo, medicine.anatomical_structure, Glucose, Reproductive Medicine, embryonic structures, Animal Science and Zoology, Cattle, Female, Developmental Biology, Biotechnology
Abstract

The objectives of the present experiment were to determine whether supplementation with progesterone (LO, 1 ng mL–1 or HI, 100 ng mL–1) during either the first (Culture-1, Day 1 to 3) or second (Culture-2, Day 4 to 7) phase of culture of in vitro-produced embryos alters embryo development, embryo metabolism or blastocyst cell number. The percentage of oocytes that cleaved, the percentage of cleaved embryos that developed to the morula stage or greater, the blastocyst stage or greater or the hatched blastocyst stage were similar among treatments. Quantities of glucose metabolised per blastocyst per hour were similar, but when metabolic data was normalised for numbers of cells in each blastocyst, the LO treatment during Culture-2 metabolised more glucose (P = 0.03) compared with all other treatments. Embryos receiving LO progesterone tended to have greater (P = 0.085) metabolism of glucose compared with embryos receiving HI progesterone. Quantities of pyruvate oxidised per blastocyst per hour, and per cell, were similar among treatments. The number of cells per blastocyst in the control group was increased (P = 0.039) compared with cells in progesterone-treated groups. In conclusion, supplementation with progesterone during the culture of in vitro-produced embryos does not appear to improve embryo characteristics.

Published
2010

105. Towards the use of microfluidics for individual embryo culture

Author

Rebecca L. Krisher and Matthew B. Wheeler

Subjects
animal structures, Swine, medicine.medical_treatment, Microfluidics, Embryonic Development, Reproductive technology, Fertilization in Vitro, Biology, Gametogenesis, Embryo Culture Techniques, Mice, Endocrinology, Genetics, medicine, Animals, Molecular Biology, In vitro fertilisation, Embryo culture, Embryo, Embryo transfer, In vitro maturation, Cell biology, medicine.anatomical_structure, Reproductive Medicine, embryonic structures, Gamete, Animal Science and Zoology, Cattle, Developmental Biology, Biotechnology
Abstract

Mammalian embryo development is still relatively inefficient in vitro. Much research has been conducted on the chemical environment, or culture medium, surrounding the embryo, but little attention has been given to the actual physical culture environment, which has changed very little over the years. The application of microfluidics to embryo production in vitro is a tantalising approach that may alleviate some of the limits that traditional microdrop culture places on embryo development and research into gamete and embryo physiology. These devices may lead to enhanced in vitro embryo development and quality by more closely mimicking the in vivo environment. Initial work in this area is promising and gives us proof-of-principle that these unique microfluidic systems may indeed be applicable to in vitro culture of gametes and embryos. The present paper reviews the advantages of microfluidics for in vitro embryo production: how the platforms are manufactured, the current uses of microfluidics in assisted reproduction, static v. dynamic culture environments, individual gamete and embryo culture and the future directions of microfluidic application to in vitro embryo production and manipulation. Finally, preliminary data from our laboratory using a new microfluidic well insert for porcine, bovine and murine embryo culture is discussed.

Published
2009

106. Effect of ammonium during in vitro maturation on oocyte nuclear maturation and subsequent embryonic development in pigs

Author

Ye Yuan and Rebecca L. Krisher

Subjects
Male, Swine, medicine.medical_treatment, Cleavage Stage, Ovum, Embryonic Development, Fertilization in Vitro, Andrology, Embryo Culture Techniques, chemistry.chemical_compound, Endocrinology, Human fertilization, Oogenesis, Food Animals, Pregnancy, medicine, Animals, Ammonium, Blastocyst, Cells, Cultured, In vitro fertilisation, Dose-Response Relationship, Drug, Embryogenesis, General Medicine, Oocyte, Embryo, Mammalian, In vitro maturation, Quaternary Ammonium Compounds, medicine.anatomical_structure, chemistry, Immunology, Oocytes, Animal Science and Zoology, Ammonium chloride, Female, Cell Nucleus Division
Abstract

The effects of ammonium in a chemically defined maturation medium on oocyte nuclear maturation and subsequent embryonic development of pigs after in vitro fertilization (IVF) and parthenogenetic activation (PA) were examined. Cumulus-oocyte complexes were matured in Purdue Porcine Medium (PPM) supplemented with 0mM, 0.02mM, 0.2mM, 2mM, or 20mM ammonium chloride, or TCM199 with 10% porcine follicle fluid (TCM+pFF; positive control) at 38.7 degrees C in 7% CO(2) in air for 40-44h. No significant difference (P0.05) in nuclear maturation was found between oocytes matured in TCM+pFF or PPM with 0mM, 0.02mM and 0.2mM ammonium chloride. However, nuclear maturation was decreased (P0.05) in oocytes matured in PPM with 2mM or 20mM ammonium. After IVF, oocytes matured in PPM with 20mM ammonium resulted in embryos with reduced (P0.05) embryonic cleavage and blastocyst development than all other treatment groups. After PA, oocytes matured in PPM with 20mM ammonium resulted in embryos with lesser (P0.05) embryonic cleavage compared to TCM+pFF. However, PA embryos derived from oocytes matured in PPM with both 2mM and 20mM ammonium had reduced (P0.05) blastocyst development compared with TCM+pFF. These results demonstrate the detrimental effect of ammonium during in vitro oocyte maturation on nuclear progression to metaphase II. Additionally, the presence of ammonium during in vitro maturation negatively influences subsequent embryonic development, although PA embryos appear to be more sensitive to the negative effects of ammonium during oocyte maturation than do IVF embryos.

Published
2009

107. Endocrine parameters and ovarian dynamics in Ossabaw miniature swine with metabolic syndrome suggest a model for polycystic ovary syndrome

Author

Jennifer Lowe, Amanda Bailey, Michael Sturek, and Rebecca L. Krisher

Subjects
medicine.medical_specialty, business.industry, Miniature swine, medicine.disease, Biochemistry, Polycystic ovary, Endocrinology, Internal medicine, Genetics, medicine, Endocrine system, Metabolic syndrome, business, Molecular Biology, Biotechnology
Published
2008
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108. 84 PORCINE EMBRYOS UTILIZE SMALL AMOUNTS OF PYRUVATE, LACTATE, AND GLUCOSE IN VITRO

Author

B. R. Redel, B. M. Elliott, Randall S. Prather, Lee D. Spate, Rebecca L. Krisher, and Melissa Paczkowski

Subjects
medicine.medical_specialty, Glucose transporter, Fructose, Embryo culture, Embryo, Metabolism, Reproductive technology, Biology, Cryopreservation, chemistry.chemical_compound, Endocrinology, medicine.anatomical_structure, Reproductive Medicine, chemistry, Internal medicine, embryonic structures, Genetics, medicine, Animal Science and Zoology, Blastocyst, Molecular Biology, Developmental Biology, Biotechnology
Abstract

Porcine embryo culture systems are suboptimal to the in vivo environment, and significant effort has been made to improve development to the blastocyst stage in vitro. Since metabolism of the early embryo has many similarities to the Warburg effect, our goal was to determine the role of glucose on development, gene expression, and metabolism of other energy substrates in the blastocyst stage embryo. Pig embryos were in vitro produced and cultured in MU1 containing pyruvate, lactate, amino acids, and either 0, 7.5, 15, or 250 µM glucose, N = 1164, 4 replications. There was no difference in blastocyst percentage between the 0 µM and 7.5 µM glucose (34% ± 6.5 v. 29% ± 8.2), but there was a decrease in development in response to 15 and 250 µM compared with 0 µM glucose (25% ± 8.5, 23% ± 8.7 v. 34% ± 6.5; P ≤ 0.01). Glucose transporters (SLC2A1 and SLC2A2) and hexokinases (HK1 and HK2) were analysed by qPCR to detect differences in gene expression, 3 replicates containing 10 blastocyst pools. The abundance of both HK1 and HK2 was decreased in blastocysts cultured with 7.5 µM glucose compared with 0 µM (P ≤ 0.04). Glucose transporters were not affected by glucose supplementation (P ≥ 0.5). Metabolic data were collected to determine if embryos were adjusting their energy substrate use in response to glucose. Two assays were completed to determine lactate and pyruvate consumption or release into the media by embryos, in comparison with media without embryos. In vitro-produced embryos were cultured in MU1 with 0 or 7.5 µM glucose N = 360, 4 replications. Both treatments consumed lactate, but there were no differences between treatments (6.8 ± 9.4 pmol/blastocyst/h v. 12.5 ± 1.6 pmol/blastocyst/h; P = 0.6). Blastocysts cultured in 7.5 µM glucose consumed pyruvate, whereas blastocysts without glucose produced pyruvate (–0.34 ± 0.3 pmol/blastocyst/h v. 0.73 ± 0.2 pmol/blastocyst/h; P

Published
2016
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110. A perspective on the role of emerging technologies for the propagation of companion animals, non-domestic and endangered species

Author

Gabriela F. Mastromonaco, Damien B.B.P. Paris, M.C.J. Paris, and Rebecca L. Krisher

Subjects
Reproductive Techniques, Assisted, Emerging technologies, Companion animal, Perspective (graphical), Endangered species, Animals, Wild, Reproductive technology, Reproductive physiology, Biology, Extinction, Biological, Endocrinology, Reproductive Medicine, Animals, Domestic, Genetics, Animals, Animal Science and Zoology, Engineering ethics, Molecular Biology, Stem cell biology, Developmental Biology, Biotechnology, Non domestic
Abstract

Assisted reproductive technologies (ART) have been used successfully in humans, domestic and laboratory species for many years. In contrast, our limited knowledge of basic reproductive physiology has restricted the application of ART in companion animal, non-domestic and endangered species (CANDES). Although there are numerous benefits, and in some cases a necessity, for applying ART for the reproductive and genetic management of CANDES, the challenges encountered with even the most basic procedures have limited the rate of progress. In this foreword we discuss the status of conventional ART, such as artificial insemination and in vitro fertilisation, as well as their benefits and inherent difficulties when applied to CANDES. It is upon these techniques, and ultimately our knowledge of basic reproductive physiology, that the success of emerging technologies, such as those described in this special issue, are dependent for success.

Published
2007

111. Toward a feline-optimized culture medium: impact of ions, carbohydrates, essential amino acids, vitamins, and serum on development and metabolism of in vitro fertilization-derived feline embryos relative to embryos grown in vivo

Author

Jason R, Herrick, Jennifer B, Bond, Genevieve M, Magarey, Helen L, Bateman, Rebecca L, Krisher, Susan A, Dunford, and William F, Swanson

Subjects
Ions, Male, Serum, Carbohydrates, Embryonic Development, Cell Count, Fertilization in Vitro, Vitamins, Embryo, Mammalian, Culture Media, Blastocyst, Pregnancy, Semen, Cats, Animals, Female, Amino Acids, Essential
Abstract

The objective of this study was to define the physiologic needs of domestic cat embryos to facilitate development of a feline-specific culture medium. In a series of factorial experiments, in vivo-matured oocytes (n = 2040) from gonadotropin-treated domestic cats were inseminated in vitro to generate embryos (n = 1464) for culture. In the initial study, concentrations of NaCl (100.0 vs. 120.0 mM), KCl (4.0 vs. 8.0 mM), KH(2)PO(4) (0.25 vs. 1.0 mM), and the ratio of CaCl(2) to MgSO(4)-7H(2)O (1.0:2.0 mM vs. 2.0:1.0 mM) in the medium were evaluated during Days 1-6 (Day 0: oocyte recovery and in vitro fertilization [IVF]) of culture. Subsequent experiments assessed the effects of varying concentrations of carbohydrate (glucose, 1.5, 3.0, or 6.0 mM; l-lactate, 3.0, 6.0, or 12.0 mM; and pyruvate, 0.1 or 1.0 mM) and essential amino acids (EAAs; 0, 0.5, or 1.0x) in the medium during Days 1-3 and Days 3-6 of culture. Inclusion of vitamins (0 vs. 1.0x) and fetal calf serum (FCS; 0 vs. 5% [v/v]) in the medium also was evaluated during Days 3-6. Development and metabolism of IVF embryos on Day 3 or Day 6 were compared to age-matched in vivo embryos recovered from naturally mated queens. A feline-optimized culture medium (FOCM) was formulated based on these results (100.0 mM NaCl, 8.0 mM KCl, 1.0 mM KH(2)PO(4), 2.0 mM CaCl(2), 1.0 mM MgSO(4), 1.5 mM glucose, 6.0 mM L-lactate, 0.1 mM pyruvate, and 0x EAAs with 25.0 mM NaHCO(3), 1.0 mM alanyl-glutamine, 0.1 mM taurine, and 1.0x nonessential amino acids) with 0.4% (w/v) BSA from Days 0-3 and 5% FCS from Days 3-6. Using this medium, ~70% of cleaved embryos developed into blastocysts with profiles of carbohydrate metabolism similar to in vivo embryos. Our results suggest that feline embryos have stage-specific responses to carbohydrates and are sensitive to EAAs but are still reliant on one or more unidentified components of FCS for optimal blastocyst development.

Published
2007

112. Similar levels of premature separation of sister chromatids in the mouse and human oocyte revealed by Next Generation Sequencing

Author

J. Landis, Richard T. Scott, Elena Silva, Teresa K. Woodruff, H. Garnsey, Rebecca L. Krisher, Xin Tao, Francesca E. Duncan, Nathan R. Treff, and C. Bohrer

Subjects
Genetics, medicine.anatomical_structure, Reproductive Medicine, Evolutionary biology, medicine, Obstetrics and Gynecology, Sister chromatids, Biology, Oocyte, DNA sequencing
Published
2015
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113. A comparative analysis of metabolism and viability in porcine oocytes during in vitro maturation

Author

Jason R. Herrick, M.L. Sparman, J.E. Swain, Rebecca L. Krisher, and Amber M. Brad

Subjects
Offspring, Swine, Cell Culture Techniques, Oxidative phosphorylation, Biology, Mice, Endocrinology, Food Animals, Species Specificity, medicine, Animals, Fetus, Embryo, General Medicine, Metabolism, Oocyte, Cell biology, In vitro maturation, Culture Media, Mitochondria, Metabolic pathway, Meiosis, medicine.anatomical_structure, Oocytes, Animal Science and Zoology, Cattle, Energy Metabolism
Abstract

The importance of oocyte quality cannot be overstated, because it impacts all subsequent events during development of the embryo, the fetus and even the resulting offspring. Oocyte metabolism plays a critical role in supporting developmental competence via multiple mechanisms. It is beginning to be understood that metabolic pathways not only affect cytoplasmic maturation but may control nuclear maturation as well. A complete understanding of the precise roles that metabolism plays in determining oocyte quality is crucial for developing efficient in vitro maturation systems to support acquisition of oocyte competence. To date, this pursuit has not been entirely successful. Work in our laboratory on porcine oocyte metabolism has elucidated some of the intricate control mechanisms at work within the oocyte, not only for energy production, but also encompassing progression of nuclear maturation, mitochondrial activity and distribution, and oxidative and ionic stresses. We hypothesize that by utilizing oocyte metabolic data, we can develop more appropriate in vitro maturation systems that result in increased oocyte and embryo developmental competence.

Published
2006

114. Chemical manipulation of glucose metabolism in porcine oocytes: effects on nuclear and cytoplasmic maturation in vitro

Author

Amber M. Brad, Jason R. Herrick, and Rebecca L. Krisher

Subjects
Embryology, Cytoplasm, Swine, Intracellular Space, Embryonic Development, Fertilization in Vitro, Pentose phosphate pathway, Carbohydrate metabolism, Biology, Phosphates, Pentose Phosphate Pathway, Endocrinology, Onium Compounds, Oogenesis, Animals, Glycolysis, Enzyme Inhibitors, Cells, Cultured, Cell Nucleus, Uncoupling Agents, Obstetrics and Gynecology, Embryo culture, Cell Biology, Metabolism, Glutathione, In vitro, In vitro maturation, Cell biology, Meiosis, Glucose, Reproductive Medicine, Biochemistry, Dinitrophenol, Oocytes, Female, Dinitrophenols
Abstract

The objectives of this study were to manipulate metabolism of glucose through glycolysis and the pentose phosphate pathway (PPP) in porcine oocytes during in vitro maturation, and determine the effects of this manipulation on meiotic progression, intracellular glutathione (GSX) concentrations and embryonic development. Cumulus-oocyte complexes isolated from abattoir ovaries were matured (40–44 h) in Purdue Porcine Medium for maturation alone (control) or supplemented with pyrroline-5 carboxylate (PC, 0.1 μM; PPP stimulator), diphenyleneiodonium (DPI, 0.1 μM; PPP inhibitor), dinitrophenol (DNP, 10 μM; glycolytic stimulator), hexametaphosphate (HMP, 100 μM; glycolytic inhibitor), PC + HMP or DNP + DPI. At the conclusion of in vitro maturation, cumulus cells were removed and oocytes were randomly allocated for analysis of GSX, metabolism and nuclear maturation, or in vitro fertilization and embryo culture. Both DPI and DNP + DPI decreased (P ≤ 0.05) the activity of glycolysis and the PPP, increased (P ≤ 0.05) the percentage of immature oocytes, and decreased (P ≤ 0.05) the proportion of mature oocytes compared with control oocytes and oocytes from the other treatments. Embryonic development (cleavage and blastocyst stage) and the intracellular content of GSX were also decreased (P ≤ 0.05) following exposure to DPI or DNP + DPI compared with control oocytes and oocytes from the other treatments. Oocyte metabolism, nuclear maturation, GSX content and embryonic development were unaffected (P > 0.05) following exposure to PC, DNP, HMP or PC + HMP. Our results suggest that metabolism of glucose through the PPP and/or glycolysis plays a key role in the control of nuclear and cytoplasmic maturation of porcine oocytes in vitro.

Published
2006

115. Metabolism, protein content, and in vitro embryonic development of goat cumulus-oocyte complexes matured with physiological concentrations of glucose and L-lactate

Author

Yann Echelard, Esmail Behboodi, S. Blash, Erdogan Memili, Jason R. Herrick, Rebecca L. Krisher, David K. Gardner, and Michelle Lane

Subjects
Pyruvate decarboxylation, medicine.medical_specialty, Embryonic Development, Fertilization in Vitro, Biology, Carbohydrate metabolism, In Vitro Techniques, Internal medicine, Pyruvic Acid, Genetics, medicine, Animals, Glycolysis, Lactic Acid, Goats, Embryogenesis, Proteins, Cell Biology, Metabolism, Oocyte, Follicular fluid, In vitro maturation, Follicular Fluid, Endocrinology, medicine.anatomical_structure, Glucose, Oocytes, Female, Developmental Biology
Abstract

No information is available concerning how the maturation environment controls the metabolism of goat oocytes. The objectives of this experiment were to: (1) Determine the concentrations of glucose, lactate, and pyruvate in caprine follicular fluid; and (2) Investigate the effects of physiological concentrations of glucose and lactate in the in vitro maturation (IVM) medium on the metabolism (glycolysis and pyruvate oxidation), protein content, and developmental competence of caprine oocytes and cumulus-oocyte complexes (COCs). Abattoir-derived COCs were matured for 18-20 hr in a defined, SOF-based medium containing 0.75, 1.5 (follicular fluid = 1.4 mM), or 3.0 mM glucose, and 3.0, 6.0 (follicular fluid = 7.1 mM), or 12.0 mM L-lactate. The protein content of oocytes and COCs was not affected (P0.05) by the concentration of glucose and lactate in the maturation medium. Increasing glucose and lactate decreased (Por = 0.05) glycolytic activity of oocytes, without affecting (P0.05) pyruvate oxidation. In COCs, increasing glucose concentrations tended (P = 0.07) to decrease glycolysis. When metabolic activity was corrected for protein content (pmol/microg protein/3 hr), increasing glucose or lactate concentrations in the medium decreased (Por = 0.05) pyruvate oxidation in oocytes, but increased (Por = 0.05) pyruvate oxidation in COCs. Embryonic development (cleavage and blastocyst development, hatching, and cell number) was not affected (P0.05) by the glucose and lactate concentrations tested. These results indicate that concentrations of glucose and lactate in the medium have cell type-specific effects on metabolism of oocytes and COCs, but do not affect developmental competence within the range of concentrations tested.

Published
2005

116. Sex determination by simultaneous application of polymerase chain reaction and fluorescent in situ hybridization on the same blastomere of a pre-embryo

Author

K. Paul Katayama, Rebecca L. Krisher, Yutaka Sasabe, Ed Stehlik, and Joan C. Stehlik

Subjects
Male, In situ, Blastomeres, Sex Determination Analysis, X Chromosome, Molecular Sequence Data, In situ hybridization, Biology, Polymerase Chain Reaction, law.invention, Polyploid, law, Y Chromosome, Humans, In Situ Hybridization, Fluorescence, Polymerase chain reaction, Electrophoresis, Agar Gel, Base Sequence, Obstetrics and Gynecology, Embryo, DNA, Blastomere, Embryo, Mammalian, Fluorescence, Molecular biology, Reproductive Medicine, Agarose gel electrophoresis, Female
Abstract

Objective To describe an investigation of the feasibility of carrying out polymerase chain reaction (PCR) and fluorescent in situ hybridization on the same single human cell for sex determination. Design To develop protocol for a clinical diagnostic test in preclinical trials. Setting Infertile human volunteers in a clinical environment. Patients Polyploid embryos were obtained from patients treated by IVF at the Advanced Institute of Fertility. Interventions Seventeen blastomeres biopsied from human polyploid embryos were analyzed for sex determination by simultaneous application of PCR and fluorescent in situ hybridization. Main Outcome Measure Presence of an X- or X and Y-chromosome band after agarose gel electrophoresis of PCR products and presence of an X- or X and Y-chromosome fluorescent probe signal after fluorescent in situ hybridization following PCR analysis. Results By PCR, all 17 blastomeres were amplified and, by fluorescent in situ hybridization, 12 (70.6%) blastomeres produced signals that were consistent with PCR results. Two blastomeres showed only X signals, although by PCR they had both X and Y-chromosome bands. Conclusions The sequential use of PCR and fluorescent in situ hybridization on the same blastomere can be applied to improve the accuracy of sex determination before fresh ET.

Published
1996
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117. Postthaw evaluation of in vitro function of epididymal spermatozoa from four species of free-ranging African bovids

Author

Jason R, Herrick, Paul, Bartels, and Rebecca L, Krisher

Subjects
Cryopreservation, Epididymis, Male, Buffaloes, Cell Survival, Povidone, Fertilization in Vitro, Silicon Dioxide, South Africa, Antelopes, Species Specificity, Oocytes, Sperm Motility, Animals, Female, Acrosome, Sperm Capacitation, Cells, Cultured, Semen Preservation
Abstract

An improved understanding of reproductive physiology in nondomestic bovids is necessary for the development of assisted reproductive technologies (ARTs) for use in the conservation of endangered bovids. In this study, epididymal spermatozoa were recovered from blesbok (Damaliscus dorcas phillipsi), African buffalo (Syncerus caffer), springbok (Antidorcas marsupialis), and black wildebeest (Connochaetes gnou) following organized culls in South Africa. Our objectives were 1) to characterize the quality of epididymal spermatozoa, 2) evaluate the effectiveness of a cryopreservation protocol, and 3) compare postthaw sperm longevity (motility, viability, and acrosomal integrity) and functionality in two culture media with two capacitation reagents (caffeine and heparin). Following recovery, spermatozoa were diluted in EQ extender, slow-cooled, and frozen in the presence of 5% glycerol. Thawed spermatozoa were separated on a Percoll gradient and diluted in fertilization media (SOF for fertilization [SOFfert]; 0.6% BSA, 0.0 mM glucose, 25.0 mM NaHCO(3)) or modified SOFfert (1.2% BSA, 1.5 mM glucose, 37.0 mM NaHCO(3)) and either heparin or caffeine, and incubated for 6 h. Spermatozoa from these species maintained an average of 64% initial motility after thawing. Incubation medium and capacitation reagent had species-specific effects on the motility, viability, and acrosomal integrity of spermatozoa, suggesting ART procedures need to be optimized for each species. Springbok spermatozoa were also shown to be competent for in vitro fertilization. Information from this study concerning sperm physiology in blesbok, African buffalo, springbok, and black wildebeest will be useful in the development of ART for the conservation of these and other species of bovids.

Published
2004

118. The effect of vitamins during maturation of caprine oocytes on subsequent developmental potential in vitro

Author

Charles L. Bormann, E. Moige Ongeri, and Rebecca L. Krisher

Subjects
Male, Fertilization in Vitro, Biology, Andrology, Embryonic and Fetal Development, Random Allocation, Human fertilization, Food Animals, medicine, Animals, Small Animals, Equine, Goats, Embryogenesis, Embryo, Vitamins, Oocyte, Sperm, In vitro, medicine.anatomical_structure, Blastocyst, Cytoplasm, Immunology, Oocytes, Animal Science and Zoology, Female
Abstract

Only a small proportion of goat oocytes selected for in vitro oocyte maturation (IVM) can successfully complete cytoplasmic maturation and support embryonic development. To produce goat blastocysts more efficiently in vitro, it is necessary to identify factors required during oocyte maturation. The objective of this study was to determine the role of vitamins during maturation of caprine oocytes in semi-defined medium on subsequent developmental capacity in vitro. Cumulus oocyte complexes (COCs) collected from a local abattoir were matured in synthetic oviductal fluid (SOF) medium supplemented with BSA, LH, FSH, and EGF in the presence or absence of MEM vitamins for 24 h. The COCs were co-incubated with frozen-thawed sperm in Bracket and Oliphant fertilization medium for 18-22 h. Embryos were cultured in G1.2 medium for 72 h followed by culture in G2.2 medium for an additional 72 h. Addition of vitamins significantly increased (P0.05) overall blastocyst development (16.4+/-1.2% versus 12.3+/-1.1%), and tended to increase (P0.06) the percentage of cleaved embryos (61.4+/-3.0% versus 52.7+/-2.6%). Addition of MEM vitamins to SOF maturation medium significantly increased (P0.05) mean blastocyst cell number compared with control medium (107.7+/-6.0 versus 85.1+/-6.3). Hatched blastocysts tended to have increased (P0.06) cell numbers in the vitamin-treated group (150.5+/-8.4 versus 123.4+/-8.8). These results suggest that addition of vitamins during oocyte maturation is beneficial for subsequent blastocyst development and viability.

Published
2003

119. 313 PRE-IN VITRO MATURATION WITH CYCLIC AMP AND CYCLIC GMP MODULATORS IMPROVES DEVELOPMENTAL COMPETENCE OF MOUSE OOCYTES

Author

William B. Schoolcraft, Nicolas Santiquet, Rebecca L. Krisher, and A.F. Greene

Subjects
urogenital system, Embryo culture, Embryo, Reproductive technology, Anatomy, Biology, Oocyte, Oogenesis, In vitro maturation, Andrology, Endocrinology, medicine.anatomical_structure, Reproductive Medicine, embryonic structures, Genetics, medicine, Animal Science and Zoology, Folliculogenesis, Molecular Biology, Gametogenesis, Developmental Biology, Biotechnology
Abstract

In vitro maturation (IVM) of cumulus-oocyte complexes (COC) results in oocytes with reduced quality and is still not as efficient as in vivo maturation in most species. One hypothesis that could explain the low developmental competence of oocytes following IVM is that the oocytes resume meiosis too quickly after being retrieved from the follicles. Studies in mice and bovine have shown that a short period of prematuration in the presence of cAMP modulators, before IVM, enhances oocyte developmental competence. Moreover, other studies have recently demonstrated that cGMP is also a crucial molecule involved in meiotic resumption. Here, our objective was to examine the effect of a cGMP modulator in combination with a cAMP modulator during a short period of prematuration on mouse oocyte nuclear maturation and subsequent embryo development following IVF. The COC were collected (6 replicates) from 2-month-old outbred CF1 mice 48 h after PMSG (5 IU) injection in the presence (pre-IVM) or absence (control) of cGMP and cAMP modulators. Pre-IVM COC (n = 184) were then placed in prematuration medium that also contained these cGMP and cAMP modulators. After 2 h, pre-IVM COC were washed and transferred to our in-house prepared, completely defined IVM medium (Paczkowski et al. 2014 Reprod.) for the remaining 16 h of culture; 10 oocytes per 50 µL drop under oil, at 37°C in 7.5% CO2 and 6.5% O2 due to the increased altitude at our location. Control COC (n = 161) were matured in the same IVM medium under identical conditions for 18 h, without prematuration. After IVM, oocytes were fixed for assessment of nuclear maturation, or fertilized and cultured in vitro and subsequent development (96 and 112 h) was recorded (Paczkowski et al. 2014 Reprod.). Results were analysed by ANOVA. A short 2-h prematuration period in the presence of cGMP and cAMP modulators had no impact on oocyte nuclear maturation to metaphase II after IVM or on embryo cleavage after IVF. However, pre-IVM treatment improved the developmental competence of the oocyte, as demonstrated by increased embryo development. More (P

Published
2015
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120. A developmental tale – metabolism takes centre stage

Author

Roger G. Sturmey and Rebecca L. Krisher

Subjects
Pregnancy, Psychoanalysis, Offspring, Embryo culture, Context (language use), Embryo, Reproductive technology, Anatomy, Biology, medicine.disease, Maternal Physiology, Endocrinology, Reproductive Medicine, Genetics, medicine, Life course approach, Animal Science and Zoology, Molecular Biology, Developmental Biology, Biotechnology
Abstract

The study of metabolism has undergone a major renaissance in recent years, and it is now ‘re’-accepted that metabolism pervades every aspect of homeostasis and physiology, from the subcellular level to the whole body (DeBerardinis and Thompson 2012). Great leaps are being made in our understanding that metabolism does much more than provide energy and biosynthetic precursors, and is not just a diagram of pathways resembling a ‘map of the London Underground’ relegated to undergraduate Biochemistry text books. Indeed, recent high profile discoveries (Radford et al. 2014; Kaelin and McKnight 2013) support the notion that metabolism is the driver of cellular development and differentiation, rather than the passenger. It now seems likely that metabolism has a major influence on genome remodelling, with the possibility of regulating change in gene expression and ultimately phenotype. Nowhere is this more important than in the developing embryo. In the days immediately after fertilisation the preimplantation embryo undergoes significant reprogramming during the transition from two highly specialised cells (oocytes and sperm) through totipotent blastomeres in the cleavage stage embryo and into the differentiating blastocyst. Much is known already about the metabolic processes that power preimplantation events, thanks to pioneering work from the likes of Brinster, Whittingham, Biggers, Bavister, Whitten and Menezo, as well as a great many contributors to this special issue. However, the next great frontier is to understand how metabolic regulation in the early embryo during a period of great plasticity influences the phenotype of the resulting fetus and subsequent offspring. This is important in the context of the Developmental Origins of Health and Adult Disease concept, first proposed by the late David Barker. Barker spoke of the importance of the ‘first 1000 days’ in determining health throughout the life course of an offspring, and was mindful to point out that day 1 of this 1000 was the day of conception. In late summer 2014, Edinburgh, Scotland hosted a meeting in which the unifying theme was ‘oocyte and embryo metabolism’.Wewere fortunate to bring togethermany of the leaders in this field who treated the audience to a range of talks in which exciting new data describing how metabolism in the days surrounding conception can influence the life of the offspring – and some of this has subsequently been published in its own right. For example, Rebecca Robker and colleagues have recently published their findings on maternal obesity-induced oocyte endoplasmic reticulum stress (Wu et al. 2015). Additionally, we heard a compelling idea fromDavidGardner behind the up-regulation of lactate production synonymous with formation of the blastocyst (Gardner 2015). Henry Leese began the proceedings with a personal, historical perspective of the history of the study of embryometabolism, summarised stylishly in the opening article in this issue. Stephen Downs revelled in AMPKinase in the oocyte, before Jeremy Thompson reminded us that ‘the oocyte is a lazy girl; the cumulus cells are the hard workers’ with respect to oocyte glucose metabolism. Rebecca Robker presented her elegant data on endoplasmic reticulum stress in the oocyte of obese mothers, and how this stress persists into the offspring. In a first, we were treated to a Skype presentation by Christina Ferreira, who excitedly described the enormous power of modern mass spectrometry in the study of oocyte and embryo metabolism. Rebecca Krisher followed this up by summarising the great strengths and, importantly, limitations of applying metabolomic approaches to embryo biochemistry. John Carroll took us ‘back to the cell’, with an important reminder that all things metabolic link into the mitochondria, before David Gardner summarised the current state of knowledge of blastocyst metabolism. Randy Prather presented fantastic new insights into the links between metabolic activity and gene function, really setting the scene for Kevin Sinclair to discuss in depth the 1 carbon cycle as the important lynchpin between metabolism and gene expression. Of course, understanding embryo metabolism has clinical realworld applications, and it was Nick Macklon who spoke on the role of maternal nutrition; specifically about the [lack of] evidence in support of single nutritional supplements in altering embryo heath. Continuing this theme, Tom Fleming and Jo Leroy respectively presented data on the impact of protein and lipid in the maternal diet. In a particularly powerful demonstration, Abigail Fowden shared data on the susceptibility of the fetus to early life interventions. Regine Steegers Theunissen outlined methods to utilise our understanding of the links between maternal lifestyle, embryo metabolism and health of the offspring in a clinical setting. The meeting concluded with Kelle Moley sharing her expertise and knowledge of the extent to which metabolic-induced damage in the oocyte might be repaired; offering both hope that the metabolic destiny of an offspring is not set at conception, and caution that some perturbations were not reversible. CSIRO PUBLISHING

Published
2015
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121. 60 PREDICTING FROZEN BOAR SPERM FERTILITY USING NOVEL AND CONVENTIONAL ANALYSES

Author

Bradford W. Daigneault, Rebecca L. Krisher, K. A. Mcnamara, David J. Miller, Sandra L. Rodriguez-Zas, Robert V. Knox, and P. H. Purdy

Subjects
endocrine system, Reproductive immunology, BOAR, urogenital system, media_common.quotation_subject, Fertility, Semen, Reproductive technology, Anatomy, Biology, Sperm, Andrology, Endocrinology, Human fertilization, Reproductive Medicine, Reproductive biology, Genetics, Animal Science and Zoology, Molecular Biology, reproductive and urinary physiology, Developmental Biology, Biotechnology, media_common
Abstract

Cryopreserved boar sperm is seldom used for AI because fertility is reduced. Despite many potential advantages of frozen-thawed sperm for AI, lack of reliable fertility estimation of frozen ejaculates before AI limits the application of frozen sperm. Conventional post-thaw evaluation of sperm does not accurately estimate fertility. Identifying sperm traits that predict fertility would help select ejaculates that produce adequate litter sizes. Our objective was to identify traits of cryopreserved sperm that are related to boar fertility for AI through the use of novel and traditional laboratory analyses. Semen from 14 boars of several breeds was cooled to 15°C for shipping before freezing. Post-thaw motility was evaluated using a microscope and confirmed with computer-automated sperm analysis. Sperm viability and acrosome integrity were measured at 0, 30, and 60 min post-thaw. In addition to traditional analyses, each sperm sample was tested by IVF to record fertilization, cleavage, and blastocyst development. A sperm-oviduct binding assay was used to compare the number of sperm bound to epithelial aggregates harvested from the isthmus. Additionally, a competitive zona binding assay using 2 distinct fluorophores for boar identification was used to count the number of sperm from each boar bound to the zona. Frozen sperm from the same ejaculates subjected to laboratory analyses were used to determine actual boar fertility. Fertility was measured by AI of mature gilts using 4.0 × 109 total sperm from one boar at 24 h and a second boar at 36 h after the onset of oestrus, and AI order was reversed in consecutive replicates. Fertility was expressed as the percentage of the litter sired by each boar. Reproductive tracts were harvested at 32 days after AI, and fetal paternity was identified using microsatellite markers. The actual boar fertility was regressed against the mean of each laboratory evaluation by boar, and the assays that best predicted fertility were identified using stepwise logistic regression. The model generated was highly predictive of fertility (P

Published
2015
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122. Applying metabolomic analyses to the practice of embryology: physiology, development and assisted reproductive technology

Author

Rebecca L. Krisher, Randall S. Prather, Roger G. Sturmey, Adam L. Heuberger, Melissa Paczkowski, John R. Stevens, Courtney Pospisil, Jason R. Herrick, and William B. Schoolcraft

Subjects
animal structures, Reproductive Techniques, Assisted, Swine, Embryonic Development, Physiology, Fertilization in Vitro, Reproductive technology, Biology, Morula, Cryopreservation, Mice, Endocrinology, Genetics, medicine, Animals, Metabolomics, Blastocyst, Amino Acids, Molecular Biology, Fertilisation, Embryo, Embryo culture, Embryo, Mammalian, Culture Media, Glutamine, medicine.anatomical_structure, Reproductive Medicine, embryonic structures, Cattle, Female, Animal Science and Zoology, Embryo quality, Developmental Biology, Biotechnology
Abstract

The advent of metabolomics technology and its application to small samples has allowed us to non-invasively monitor the metabolic activity of embryos in a complex culture environment. The aim of this study was to apply metabolomics technology to the analysis of individual embryos from several species during in vitro development to gain an insight into the metabolomics pathways used by embryos and their relationship with embryo quality. Alanine is produced by both in vivo- and in vitro-derived human, murine, bovine and porcine embryos. Glutamine is also produced by the embryos of these four species, but only those produced in vitro. Across species, blastocysts significantly consumed amino acids from the culture medium, whereas glucose was not significantly taken up. There are significant differences in the metabolic profile of in vivo- compared with in vitro-produced embryos at the blastocyst stage. For example, in vitro-produced murine embryos consume arginine, asparagine, glutamate and proline, whereas in vivo-produced embryos do not. Human embryos produce more alanine, glutamate and glutamine, and consume less pyruvate, at the blastocyst compared with cleavage stages. Glucose was consumed by human blastocysts, but not at a high enough level to reach significance. Consumption of tyrosine by cleavage stage human embryos is indicative of blastocyst development, although tyrosine consumption is not predictive of blastocyst quality. Similarly, although in vivo-produced murine blastocysts consumed less aspartate, lactate, taurine and tyrosine than those produced in vitro, consumption of these four amino acids by in vitro-derived embryos with high octamer-binding transcription factor 4 (Oct4) expression, indicative of high quality, did not differ from those with low Oct4 expression. Further application of metabolomic technologies to studies of the consumption and/or production of metabolites from individual embryos in a complete culture medium could transform our understanding of embryo physiology and improve our ability to produce developmentally competent embryos in vitro.

Published
2015
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123. Composition of commercial media used for human embryo culture

Author

Rebecca L. Krisher, Dietrich Matern, Thomas P. Moyer, Nikola A. Baumann, Dean E. Morbeck, and Jason R. Herrick

Subjects
Male, Embryonic Development, Biology, Cryopreservation, Embryo Culture Techniques, Electrolytes, Mice, chemistry.chemical_compound, medicine, Animals, Humans, Blastocyst, Amino Acids, chemistry.chemical_classification, Obstetrics and Gynecology, Embryo culture, Embryo, Mammalian, Phosphate, Culture Media, Amino acid, medicine.anatomical_structure, Reproductive Medicine, chemistry, Biochemistry, Metals, Female, Composition (visual arts), Limiting oxygen concentration, Organic acid
Abstract

Objective To determine the composition of commercially available culture media and test whether differences in composition are biologically relevant in a murine model. Design Experimental laboratory study. Setting University-based laboratory. Animal(s) Cryopreserved hybrid mouse one-cell embryos were used in experiments. Intervention(s) Amino acid, organic acid, ions, and metal content were determined for two different lots of media from Cook, In Vitro Care, Origio, Sage, Vitrolife, Irvine CSC, and Global. To determine whether differences in the composition of these media are biologically relevant, mouse one-cell embryos were thawed and cultured for 120 hours in each culture media at 5% and 20% oxygen in the presence or absence of protein in an EmbryoScope time-lapse incubator. Main Outcome Measure(s) The compositions of seven culture media were analyzed for concentrations of 39 individual amino acids, organic acids, ions, and elements. Blastocyst rates and cell cycle timings were calculated at 96 hours of culture, and the experiments were repeated in triplicate. Result(s) Of the 39 analytes, concentrations of glucose, lactate, pyruvate, amino acids, phosphate, calcium, and magnesium were present in variable concentrations, likely reflecting differences in the interpretation of animal studies. Essential trace elements, such as copper and zinc, were not detected. Mouse embryos failed to develop in one culture medium and were differentially affected by oxygen in two other media. Conclusion(s) Culture media composition varies widely, with differences in pyruvate, lactate, and amino acids especially notable. Blastocyst development was culture media dependent and showed an interaction with oxygen concentration and presence of protein.

Published
2014
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124. Development and viability of in vitro derived porcine blastocysts cultured in NCSU23 and G1.2/G2.2 sequential medium

Author

J.E. Swain, Charles L. Bormann, and Rebecca L. Krisher

Subjects
Male, Swine, Cell, Fertilization in Vitro, Statistics, Nonparametric, Andrology, Random Allocation, Food Animals, Pregnancy, Pyruvic Acid, medicine, Animals, Blastocyst, Small Animals, Embryonic cleavage, Equine, Chemistry, Embryogenesis, Embryo culture, Embryo, Metabolism, Anatomy, In vitro, Culture Media, medicine.anatomical_structure, Glucose, embryonic structures, Oocytes, Animal Science and Zoology, Female
Abstract

Porcine embryo development in vitro is relatively inefficient compared to other domestic species. Currently, a single culture medium (NCSU23) is the standard for porcine in vitro systems. However, the G1.2/G2.2 sequential culture system has been beneficial for embryo development in other species. The objective of this study was to compare porcine preimplantation embryo development in vitro and subsequent blastocyst viability and metabolic activity using NCSU23 and G1.2/G2.2 culture media. Oocytes were matured in defined TCM199 base medium for 45 to 47 h and fertilized in mTBM for 4 h. Embryos were cultured in either NCSU23 for 146 h or G1.2 medium for 72 h followed by culture in G2.2 medium for an additional 74 h. Blastocyst substrate use was measured using a modification of the hanging drop technique. Culture in NCSU23 resulted in a higher percentage (P < 0.05) of embryo cleavage (74.0%) and blastocyst development (14.6%) than culture in G1.2/G2.2 (67.8% and 7.8%, respectively). Both NCSU23 and G1.2/G2.2 produced blastocysts with similar mean cell numbers (51.5 +/- 4.3 and 47.1 +/- 4.3, respectively), similar glucose use (10.81 +/- 1.39 and 10.12 +/- 1.72 pmol/embryo/3 h, respectively) and pyruvate use (1.08 +/- 0.056 and 0.88 +/- 0.048 pmol/embryo/3 h, respectively). These data indicate that a sequential culture system can support porcine embryo development in vitro without compromising embryo viability. However, the G1.2/G2.2 system was not as effective as NCSU23 in supporting blastocyst development. Sequential media should be formulated specifically for porcine embryos to improve embryonic cleavage and blastocyst development.

Published
2001

125. Responses of oocytes and embryos to the culture environment

Author

Barry D. Bavister and Rebecca L. Krisher

Subjects
Mammals, Equine, Transgene, Embryogenesis, Embryo, Fertilization in Vitro, Biology, Oocyte, Cleavage (embryo), Embryo transfer, Cell biology, Embryonic and Fetal Development, medicine.anatomical_structure, Blastocyst, Reproductive Techniques, Food Animals, Meiosis, Pregnancy, medicine, Oocytes, Animals, Animal Science and Zoology, Female, Small Animals
Abstract

Embryo development is strongly influenced by events occurring during oocyte maturation. Although many immature oocytes are capable of completing meiosis in vitro, only a small percentage of the original pool of immature oocytes is competent to continue development to the blastocyst stage and subsequently result in a pregnancy. This indicates that maturation of oocytes in vitro may not be occurring in an entirely normal manner. Cytoplasmic changes occurring during maturation, collectively termed cytoplasmic maturation, are essential for embryonic development. The cytoplasm of the oocyte may play a crucial role in assembling the correct metabolic machinery for production of sufficient energy for cellular functions during maturation, cleavage and blastocyst formation. A better understanding of the structural, functional and metabolic characteristics of the oocyte during maturation, and the consequence of changes in these parameters on developmental competence is needed. Understanding the role of cytoplasmic changes during oocyte maturation will help increase the efficiency of in vitro embryo production. Better embryo production strategies will facilitate basic research into the control of early development, improve implementation in endangered species, provide a source of high quality oocytes for nuclear transfer and transgenic technologies and benefit the commercial embryo transfer industry.

Published
2000

130. 189 ESTRADIOL PRODUCTION AND GENE UPREGULATION FOLLOWING PRIMORDIAL FOLLICLE ACTIVATION IN VITRO

Author

William B. Schoolcraft, Melissa Paczkowski, K. Maruniak, and Rebecca L. Krisher

Subjects
endocrine system, medicine.medical_specialty, Reproductive immunology, Embryo culture, Reproductive technology, Biology, Oogenesis, Endocrinology, Reproductive Medicine, Internal medicine, Follicular phase, Genetics, medicine, Tensin, Animal Science and Zoology, Folliculogenesis, Molecular Biology, Gametogenesis, Developmental Biology, Biotechnology
Abstract

Activation and growth of dormant follicles completely in vitro, with the production of competent oocytes, would provide not only the opportunity to investigate control mechanisms of follicle growth, but also an instrument by which fertility might be preserved in women with cancer, premature ovarian failure, or advanced maternal age. The objective of this study was to assess the physical culture parameters, as well as the addition of an antibody to the anti-angiogenic isoform of VEGFA (VEGFAxxxb), for the ability to support activation of primordial follicles and subsequent functional follicular growth in vitro. The phosphatase and tensin homologue (PTEN) inhibitor, bpV(pic), was used to activate growth of primordial follicles in neonatal Day 3 mouse ovaries. BpV(pic) (100 µM) was used either alone, or in combination with FSH (0.3 IU mL–1), IGF-1 (10 ng mL–1), EGF (10 ng mL–1), and ITS (insulin-transferrin-selenium; 1x). Ovaries were treated for 24 h and then cultured for an additional 12 to 20 days, either suspended on a membrane or encapsulated in an alginate bead, with or without VEGFAxxxb during culture. Oestradiol (E2) production and expression of Ahr, Amh, Bmp15, Cyp19, and Esr1, genes known to be involved in follicular growth, were evaluated to assess growth and functionality of follicles. The E2 data were analysed with ANOVA; the qPCR data were analysed using the non-parametric Mann–Whitney U t-test (significance at P

Published
2013
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133. Addition of Insulin, Transferrin, and Selenium to a Defined Maturation Medium Does Not Affect Subsequent Development of Murine Embryos

Author

Rebecca L. Krisher, Jason R. Herrick, and William B. Schoolcraft

Subjects
chemistry.chemical_classification, medicine.medical_specialty, Insulin, medicine.medical_treatment, chemistry.chemical_element, Embryo, Cell Biology, General Medicine, Biology, Affect (psychology), Endocrinology, Reproductive Medicine, chemistry, Transferrin, Internal medicine, medicine, Selenium
Published
2012
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141. Follicular Dynamics and Estrous Cycle Features of the Ossabaw Pig Model of Polycystic Ovary Syndrome (PCOS)

Author

Mouhamad Alloosh, Annie E. Newell-Fugate, Rebecca L. Krisher, Michael Sturek, Jessica Taibl, and Romana A. Nowak

Subjects
Estrous cycle, medicine.medical_specialty, Endocrinology, Reproductive Medicine, Internal medicine, Polycystic ovary syndrome (PCOS), Follicular phase, medicine, Pig model, Cell Biology, General Medicine, Biology, medicine.disease
Published
2011
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142. 320 BASELINE AND SUPEROVULATION HYPERANDROGENISM AND FOLLICULAR DYNAMICS IN THE OSSABAW PIG SUGGEST AN ANIMAL MODEL FOR POLYCYSTIC OVARY SYNDROME

Author

Michael Sturek, Sherrie G. Clark, Jessica Taibl, Rebecca L. Krisher, Annie E. Newell-Fugate, and Mouhamad Alloosh

Subjects
Estrous cycle, medicine.medical_specialty, Hyperandrogenism, Reproductive technology, Luteal phase, Biology, medicine.disease, Polycystic ovary, Endocrinology, medicine.anatomical_structure, Reproductive Medicine, Internal medicine, Follicular phase, Genetics, medicine, Animal Science and Zoology, Folliculogenesis, Molecular Biology, Corpus luteum, Developmental Biology, Biotechnology
Abstract

The objective of this study was to validate the obese Ossabaw pig as a model of the obese polycystic ovary syndrome (PCOS) phenotype. Four sows were fed a high fat–high fructose diet to induce metabolic syndrome (MetS), and 5 sows were fed a control diet (Lean). Sows had twice-weekly blood collection and ovarian ultrasound; serum was assessed weekly for androstenedione (A) and twice weekly for progesterone (P). The follicular phase of the oestrous cycle was determined by absence of a corpus luteum on ultrasound and a nadir in P below 2.5 ng mL–1. After baseline measurement collection, sows were down-regulated with a GnRH agonist and superovulated with subcutaneous FSH/LH injections administered every 8 h until large follicles (5–12.5 mm) were visible on the ultrasound (3–7 days), at which point hCG was administered. Oestrous cycle data were divided into follicular (F), early luteal (EL), mid-luteal (ML), late luteal (LL), and transition (T) phases. Superovulation data were subdivided by percentage of stimulation completion and number of days post-hCG. Non-normal data were transformed before analysis with PROC MIXED for repeated-measures in SAS. The MetS sows had a longer average oestrous cycle length than did Lean sows (MetS, 32.2 ± 1.3 days; Lean, 25.2 ± 1.0 days; P 12.5 mm). The MetS sows had significantly more CS than did Lean sows during the EL and ML phases (2.0 ± 0.5 avg pig–1; P

Published
2011
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143. 275 EFFECT OF REACTIVE OXYGEN SPECIES DURING IN VITRO MATURATION ON PORCINE OOCYTE NUCLEAR MATURATION AND DEVELOPMENTAL COMPETENCE

Author

Ye Yuan and Rebecca L. Krisher

Subjects
chemistry.chemical_classification, Reactive oxygen species, Embryonic cleavage, Reproductive technology, Biology, Oocyte, Oogenesis, In vitro maturation, Andrology, Endocrinology, medicine.anatomical_structure, Reproductive Medicine, chemistry, Immunology, Genetics, medicine, Animal Science and Zoology, Folliculogenesis, Blastocyst, Molecular Biology, Developmental Biology, Biotechnology
Abstract

The generation of excessive reactive oxygen species (ROS) may contribute to the decreased competence of in vitro matured (IVM) oocytes. However, ROS are also generated in normal cellular metabolism and can be important regulators of cellular functions. The objective of this study was to examine the effect of ROS during IVM on porcine oocyte nuclear maturation and subsequent embryonic development. Oocytes were matured in different redox environments for 40 h in 7% CO2 in air at 38.7°C. The basic maturation medium was defined PPM supplemented with 1 mM hypoxanthine. Reactive oxygen species were generated by the hypoxanthine–xanthine oxidase (XOD) system at 3 different concentrations: XOD0 (0 mU), XOD1 (1 mU), and XOD10 (10 mU). In each XOD treatment, 2 different concentrations of cysteine (Cys) were added as an antioxidant: Cys1 (0.57 mM) and Cys2 (1.14 mM). This resulted in 6 experimental treatments in a 3 × 2 factorial design; XOD0-Cys1 was considered the control. For fertilization, gametes were co-incubated in modified Tween medium B with milk powder for 5 h and then cultured in NCSU-23 medium in 5% CO2, 10% O2 for 6 days, at which point cleavage, blastocyst development, and blastocyst cell number were determined (30–50 per treatment per replicate; 4 replicates). Data were analysed by two-way ANOVA, and differences were determined by Fisher’s least significant difference multiple-comparison test; percentage data were arcsin transformed (significance, P 0.05). In conclusion, 10-mU XOD during IVM resulted in decreased nuclear maturation, embryonic cleavage, and blastocyst development, possibly due to excessive ROS generated by XOD. The negative effect of high levels of XOD on blastocyst formation could be reversed by adding additional antioxidant capacity to the environment (Cys2). This result suggests that adequate ROS balance is important for oocyte quality. Interestingly, adding extra antioxidant capacity alone (XOD0-Cys2) was detrimental to blastocyst formation, possibly due to the creation of an environment that was too reduced. These results demonstrate the importance of keeping the redox environment balanced during oocyte maturation. Excessive oxidative or reducing environments both appear to be detrimental to oocyte developmental competence. Table 1.Nuclear maturation and developmental competence of oocytes matured in different redox environments

Published
2011
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146. 72 PREGNANCY OUTCOME AFTER OVIDUCTAL TRANSFER OF ZONA-FREE 1-CELL-STAGE PORCINE EMBRYOS PRODUCED BY HANDMADE CLONING

Author

Lain Uriel Ohlweiler, L. A. Rund, M. B. Wheeler, S. M. Wilson, E. Monaco, Alceu Mezzalira, J. Ringwelski, Rebecca L. Krisher, Marcelo Bertolini, and Joana Claudia Mezzalira

Subjects
Embryo culture, Reproductive technology, Biology, Oocyte, Andrology, Endocrinology, medicine.anatomical_structure, Reproductive Medicine, Immunology, Genetics, medicine, Oviduct, Somatic cell nuclear transfer, Animal Science and Zoology, Folliculogenesis, Zona pellucida, Molecular Biology, Fertilisation, Developmental Biology, Biotechnology
Abstract

The pig is an important animal model for the study of human diseases. An important step for better use of this species in biomedical research is to obtain genetically identical individuals by procedures such as somatic cell nuclear transfer (SCNT). As the in vitro culture environment is usually sub-optimal for embryo development, the oviductal transfer of cloned embryos at the 1-cell stage may be more efficient for the establishment of pregnancies. However, the transfer at such an early stage usually requires the presence of zona pellucida or agar embedding to protect embryos from the recipient’s immune system (Loi et al. 1999 Livest. Prod. Sci. 60, 281-294). This study aimed to evaluate the developmental viability of 1-cell-stage porcine handmade cloned embryos directly transferred to the oviduct of female recipients without the zona pellucida or agar embedding. After 40 h of IVM in TCM-199 +10% follicular fluid, COCs obtained from sows were denuded, selected for the presence of a polar body (459/689), and submitted to a 0.2% pronase solution in 25% fetal bovine serum (FBS) for partial zona removal, followed by rinses in manipulation medium and pure FBS. Subsequent to oocyte splitting by manual bisection in a 5 μg mL-1 cytochalasin B solution (CCB), hemi-oocytes (87.1%) were screened under fluorescent microscopy using Hoechst 33 342 stain, resulting in 57.6% enucleated halves (461/800). A somatic cell culture established from a fetal clone pig biopsy (Adam et al. 2007 Oncogene 26, 1038-1045) at passage 4 was used for embryo reconstruction, which was done in a 0.05% phytohemagglutinin (PHA) solution, by sticking 2 cytoplasts and a somatic cell in a linear orientation. Reconstructed couplets, rinsed in calcium- and magnesium-free fusion medium, were electrofused in a fusion chamber after exposure to a 30-V AC pulse for 20 s for alignment, followed by two 24-μs-long DC fusion pulses of 1.3 kV cm-1. Fused couplets (154/214) were exposed for 10 min to a solution containing 5 μg mL-1 CCB and 10 μg mL-1 cycloheximide, followed by electrical activation (two 24-μs-long DC pulses of 0.9 kV cm-1) in fusion medium containing calcium and magnesium. Activated embryos were cultured in vitro for 12 h in 500 μL of PZM-3 medium in the well of the well (WOW) system, in a plastic bag filled with gas mixture (90% N2, 5% O2, 5% CO2), at 38.5°C. Then, a total of 70 and 80 non-agar-embedded, zona-free 1-cell-stage cloned porcine embryos were transferred directly to the oviducts of a sow and a gilt, respectively, both synchronous at approximately 12 h before ovulation. The recipient sow was diagnosed pregnant by ultrasonography on Day 66 of gestation. Although the sow was diagnosed open on Day 72, this study demonstrates that the transfer of 1-cell-stage zona-free embryos directly to the oviduct of a synchronous sow can result in pregnancy.

Published
2010
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147. 69 EFFECTS OF CELL TYPE, PRE-ACTIVATION PROTOCOL, AND CULTURE CONDITIONS ON DEVELOPMENT OF PORCINE HANDMADE CLONED EMBRYOS

Author

A. Mezzalira, Ye Yuan, A. Massie, Marcelo Bertolini, Rebecca L. Krisher, E. Monaco, M. B. Wheeler, Lain Uriel Ohlweiler, Joana Claudia Mezzalira, and Elena Silva

Subjects
Embryogenesis, Embryo culture, Embryo, Reproductive technology, Biology, Andrology, chemistry.chemical_compound, Endocrinology, medicine.anatomical_structure, Reproductive Medicine, chemistry, embryonic structures, Immunology, Genetics, medicine, Animal Science and Zoology, Blastocyst, Zona pellucida, Molecular Biology, Cytochalasin B, Fertilisation, Developmental Biology, Biotechnology
Abstract

Despite the rather successful and widespread use of cloning in various species, distinct cell types from the same species and even the same genotype display differences in blastocyst yield. Moreover, variations in the protocol for embryo production can influence development to the blastocyst stage and subsequent fetal development. The aim of this study was to evaluate the effect of 2 cell types and 2 embryo pre-activation protocols with or without the presence of FCS in the in vitro culture medium on development of handmade pig cloned embryos to the blastocyst stage. Cumulus-oocyte complexes recovered from sow ovaries were in vitro-matured for 38 to 40 h. Denuded matured oocytes selected by the presence of a polar body had the zona pellucida removed in a 0.2% protease HEPES-buffered solution +25% FCS, followed by manual bisection and UV screening of enucleated halves using Hoechst stain. Clone embryo reconstruction was performed using a phytohemoagglutinin solution to adhere 2 cytoplasts and a somatic cell. Adipocyte-derived mesenchymal stem cells (ADMSC) from a Yorkshire pig or granulosa cells (GC) from an Ossabaw pig were used as nuclear donors. Following electrical fusion, couplets were pretreated with a brief exposure to cytochalasin B (CB) or cytochalasin B + cycloheximide (CB+CX) in the presence of serum before the electrical activation (Naruse et al. 2007 Theriogenology 68, 709-716; Du et al. 2009 Reprod. Fertil. Dev. 21, 114). Activated embryos were in vitro-cultured in the well of the well (WOW) system, with 2 embryos per microwell, for 7 days in PZM-3 medium +0.3% BSA in the presence (FBS+) or absence (FBS-) of 10% FCS. Cleavage (Day 2, chi-square test) and blastocyst (Day 7, Fisher test) rates, on a per WOW basis, were compared for a level of significance of 5%. Our preliminary data indicate that the presence of serum in the IVC affected cleavage and blastocyst yield in a cell-type-dependent manner. The presence of serum enhanced the blastocyst yield for ADMSC, whereas for GC, only the absence of serum allowed any blastocyst development. The cell type and the pre-activation protocol did not appear to affect cleavage and embryo development to the blastocyst stage. Despite the low number of replications, our results reinforce the importance of optimizing the embryo production system taking into consideration the individual requirements for distinct cell types, procedures, and culture conditions. Table 1.Effects of cell type, pre-activation process and in vitro culture (IVC) medium on development of handmade pig cloned embryos

Published
2010
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148. Ovulation rate, zygote recovery and follicular populations in FSH-superovulated goats treated with PGF(2alpha) and/or GnRH

Author

Christopher G. Russell, William H. Velander, Raymond L. Page, Amy E.T. Sparks, R. S. Canseco, R.E. Pearson, Rebecca L. Krisher, F.C. Gwazdauskas, and John L. Johnson

Subjects
Estrous cycle, endocrine system, medicine.medical_specialty, Equine, business.industry, media_common.quotation_subject, Prostaglandin, Embryo, Gonadotropin-releasing hormone, chemistry.chemical_compound, Follicle-stimulating hormone, Endocrinology, Food Animals, chemistry, Internal medicine, Follicular phase, medicine, Animal Science and Zoology, Small Animals, business, Microinjection, Ovulation, hormones, hormone substitutes, and hormone antagonists, media_common
Abstract

Follicular development and ovulation were examined in superovulated Nubian and Nubian-cross dairy goats following prostaglandin F(2alpha) (PGF(2alpha)) and/or gonadotropin releasing hormone (GnRH) treatment. Estrus was synchronized with Synchromate-B((R)) implants. Superovulation was induced with follicle stimulating hormone (FSH) and augmented with GnRH and/or PGF(2alpha). The PGF(2alpha) treatment was administered on Day 2 of superovulation. Implants were removed from all goats on Day 3 of superovulation. The GnRH treatment was administered 24 h after implant removal. All does were exposed to fertile males for 48 h at the time of GnRH injection. Surgical embryo recovery and ovarian response evaluation were conducted 64 to 78.5 h after implant removal. The number of ovulations was higher with GnRH treatment (18.5 +/- 7; x +/- SEM) than that in the controls (5.3 +/- 4.1; P0.05). There were fewer follicles in the GnRH-treated does than in the untreated does (10.9 +/- 2.9 vs 22.1 +/- 3.2; P0.05). The number of follicles smaller than 4 mm in diameter (5.8 +/- 0.8) did not differ between treatments. The GnRH-treated does had fewer 4- to 8-mm follicles (4.2 +/- 2.0 vs 9.1 +/- 1.6; P0.05) and fewer follicles larger than 8 mm (0.7 +/- 1.4 vs 7.3 +/- 1.6; P0.01) than the controls. Predicted times for 1- and 2-cell embryo recoveries were 68.5 and 73.7 h following implant removal, respectively. This study demonstrates that GnRH is an effective supplement used with FSH superovulation regimens in dairy goats. Moreover, GnRH provides for enhanced early embryo collection for DNA microinjection studies.

Published
1992

150. 256 LEPTIN AND GLUCOSE INFLUENCE PORCINE NUCLEAR MATURATION

Author

Rebecca L. Krisher and Elena Silva

Subjects
medicine.medical_specialty, Leptin receptor, education, Reproductive technology, Biology, Oocyte, Oogenesis, In vitro maturation, Chemically defined medium, Endocrinology, medicine.anatomical_structure, Reproductive Medicine, Internal medicine, Genetics, medicine, Animal Science and Zoology, Folliculogenesis, Molecular Biology, hormones, hormone substitutes, and hormone antagonists, Gametogenesis, Developmental Biology, Biotechnology
Abstract

Leptin (LEP), a product of the obese gene, regulates food intake and may be associated with the metabolic syndrome. In addition, leptin receptor has been identified in the luteal and granulosa cells of the pig, suggesting that this protein may play a role in fertility. Research indicates that LEP is associated with insulin sensitivity; thus, the addition of different concentrations of LEP and glucose (GLUC) in maturation media may have an impact on oocyte maturation. The objective of the current experiments was to determine the effect of LEP (Experiment 1), and LEP in combination with GLUC (Experiment 2) on the nuclear maturation of porcine oocytes. This could potentially be a good model system in which to study the effects of obesity and diabetes on oocyte quality. Cumulus–oocyte complexes were cultured in a chemically defined medium, Purdue porcine medium (PPM) for 42 h, in 7% CO2 in air and at 38.7°C. In Experiment 1, medium was supplemented with 5 different concentrations (0, 1, 10, 20, and 100 ng mL–1) of LEP, in the presence of 2 mm GLUC. Experiment 2 was designed as a 3 × 3 factorial, with LEP (0, 1, and 10 ng mL–1) and GLUC (0, 5, and 50 mm). Oocytes were fixed and stained after IVM (136 to 155/treatment, 7 replicates; and 39 to 90/treatment, 5 replicates for Experiment 1 and 2, respectively). Nuclear maturation was scored as 1 (mature; T or MII) or 0 (not mature). Data were analyzed by GLM ANOVA and chi-square. There was no difference in nuclear maturation between 0, 1, 10, 20, and 100 ng mL–1 LEP (79.4, 82.3, 74.5, 77.2, and 83.7% mature, respectively). According to these data, LEP alone did not have an effect on in vitro maturation of porcine oocytes when using a chemically defined maturation medium. Absence of GLUC in the medium had a negative effect on maturation (39.5%; P < 0.01) compared with treatment with 5 mm (88.2%) and 50 mm (74.7%) GLUC, independent of LEP. In the presence of 5 mm GLUC, there was no difference between 0, 1, and 10 ng mL–1 LEP (83.9, 94.9, and 88.3%, respectively). However, LEP did affect nuclear maturation when COC were cultured in the absence of GLUC or with excessive GLUC. Leptin (10 ng mL–1) tended (P = 0.1) to promote nuclear maturation (46.2%) in the absence of GLUC (0 mm), compared with 0 ng mL–1 LEP (32.3%). In high-GLUC (50 mm) medium, 1 ng mL–1 LEP had a positive effect (P < 0.05) on nuclear maturation (87.8%) compared with 0 ng mL–1 (66.7%) and 10 ng mL–1 LEP (72.3%). LEP (0 or 10 ng mL–1) inhibited (P < 0.05) nuclear maturation in the presence of high (50 mm) GLUC compared with that in 5 mm GLUC. These data demonstrate that addition of 10 ng mL–1 LEP in maturation media may mitigate the negative effect of maturation in the absence of GLUC. Moreover, in the presence of excessive GLUC, 1 ng mL–1 LEP stimulates nuclear maturation. These results suggest that LEP and GLUC may interact to regulate oocyte nuclear maturation in obese or diabetic individuals, or both.

Published
2009
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