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1.
Singapore Med J ; 2024 Feb 16.
Article in English | MEDLINE | ID: mdl-38363646

ABSTRACT

INTRODUCTION: Does euploidy of trophectoderm (TE) biopsies correlate with conventional blastocyst morphological, maternal age and implantation potential? METHODS: This is a one-centre, retrospective, observational study. RESULTS: Eight hundred and ninety-three blastocysts were biopsied; 57.73% were euploid. The euploidy rate was found to be significantly higher for the embryos with good morphology of inner cell mass (ICM) and TE. Between ICM and TE morphology variables, TE was more predictive of the euploidy rate. When broken down into different age groups, the percentage of good morphology embryos remained similar across all age groups, while the percentage of euploid embryos dropped with increasing age. These results suggest that the correlation between blastocyst morphology and ploidy status was present but poor. Faster growing day 5 blastocysts showed a significantly higher euploidy rate than slower growing day 6 or 7 blastocysts. The number of good-quality blastocysts per cycle, euploid blastocysts per cycle and the euploidy rate were strongly associated with maternal age. A trend towards an increased implantation rate was found with euploid embryo transfers compared to the control group without preimplantation genetic test for aneuploidies (PGT-A). CONCLUSIONS: Blastocyst morphology, rate of development and maternal age were found to be significantly associated with euploidy rate. There is a trend that suggests PGT-A may help to improve the pregnancy rate, but it is not statistically different, and therefore, PGT-A remains an unproven hypothesis. Due to the limitation of a small size of the control group, further studies with more data are needed.

2.
Sci Rep ; 14(1): 2391, 2024 01 29.
Article in English | MEDLINE | ID: mdl-38287040

ABSTRACT

Advanced molecular and cellular technologies provide promising tools for wildlife and biodiversity conservation. Induced pluripotent stem cell (iPSC) technology offers an easily accessible and infinite source of pluripotent stem cells, and have been derived from many threatened wildlife species. This paper describes the first successful integration-free reprogramming of adult somatic cells to iPSCs, and their differentiation, from three endangered Southeast Asian primates: the Celebes Crested Macaque (Macaca nigra), the Lar Gibbon (Hylobates lar), and the Siamang (Symphalangus syndactylus). iPSCs were also generated from the Proboscis Monkey (Nasalis larvatus). Differences in mechanisms could elicit new discoveries regarding primate evolution and development. iPSCs from endangered species provides a safety net in conservation efforts and allows for sustainable sampling for research and conservation, all while providing a platform for the development of further in vitro models of disease.


Subject(s)
Induced Pluripotent Stem Cells , Primates , Animals , Animals, Wild , Cell Differentiation , Cellular Reprogramming , Endangered Species , Hylobates , Macaca
4.
Reprod Biomed Online ; 19(2): 198-201, 2009 Aug.
Article in English | MEDLINE | ID: mdl-19712554

ABSTRACT

A couple with male infertility due to non-obstructive azoospermia were referred to the fertility centre for treatment. Testicular biopsy was performed on the male partner and testicular samples were frozen. The female partner underwent ovarian stimulation and 31 mature oocytes were recovered by ultrasound-guided vaginal aspiration. Twelve oocytes were cryopreserved by the Cryotop vitrification method and 19 oocytes were inseminated by intracytoplasmic sperm injection (ICSI) using frozen-thawed testicular spermatozoa. Nine out of 19 oocytes were fertilized and the resulting embryos were cryopreserved by slow freezing. Four months later, two out of six thawed embryos were transferred, but no pregnancy resulted. One year later, the couple decided to attempt pregnancy using vitrified oocytes and frozen testicular spermatozoa. Six vitrified-warmed oocytes were injected with frozen-thawed testicular spermatozoa and four were fertilized. On the day of transfer, two cleavage stage embryos (4-cell, 2-cell) were obtained. Serum beta-HCG test 14 days after embryo transfer was positive. Hormonal support for the established pregnancy was maintained with oestradiol and progesterone orally until 12 weeks of gestation. A healthy baby boy weighing 3.09 kg was delivered by elective Caesarean section at 38 weeks of gestation. This case report demonstrates that oocyte cryopreservation by the Cryotop vitrification method does not compromise oocyte developmental competence.


Subject(s)
Fertilization in Vitro , Freezing , Oocytes/cytology , Pregnancy Outcome , Spermatozoa/physiology , Testis/cytology , Adult , Female , Hot Temperature , Humans , Male , Pregnancy
5.
J Zhejiang Univ Sci B ; 8(8): 533-9, 2007 Aug.
Article in English | MEDLINE | ID: mdl-17657853

ABSTRACT

This study investigated whether four cumulus-specific genes: follicular stimulating hormone receptor (FSHr), hyaluronan synthase 2 (Has2), prostaglandin synthase 2 (Ptgs2) and steroidogenic acute regulator protein (Star), were correctly reprogrammed to be transcriptionally silent following somatic cell nuclear transfer (SCNT) in a murine model. Cumulus cells of C57xCBA F1 female mouse were injected into enucleated oocytes, followed by activation in 10 micromol/L strontium chloride for 5 h and subsequent in vitro culture up to the blastocyst stage. Expression of cumulus-specific genes in SCNT-derived embryos at 2-cell, 4-cell and day 4.5 blastocyst stages was compared with corresponding in vivo fertilized embryos by real-time PCR. It was demonstrated that immediately after the first cell cycle, SCNT-derived 2-cell stage embryos did not express all four cumulus-specific genes, which continually remained silent at the 4-cell and blastocyst stages. It is therefore concluded that all four cumulus-specific genes were correctly reprogrammed to be silent following nuclear transfer with cumulus donor cells in the mouse model. This would imply that the poor preimplantation developmental competence of SCNT embryos derived from cumulus cells is due to incomplete reprogramming of other embryonic genes, rather than cumulus-specific genes.


Subject(s)
Gene Silencing , Models, Animal , Nuclear Transfer Techniques , Transcription, Genetic/genetics , Animals , Cyclooxygenase 2/genetics , Embryo, Mammalian/metabolism , Female , Glucuronosyltransferase/genetics , Hyaluronan Synthases , Male , Mice , Phosphoproteins/genetics , Receptors, FSH/genetics
6.
J Assist Reprod Genet ; 23(11-12): 413-9, 2006.
Article in English | MEDLINE | ID: mdl-17151926

ABSTRACT

PURPOSE: The low cloning efficiency with SCNT is due to incomplete or partial reprogramming of the donor somatic cell nuclei after microinjection into the enucleated oocyte. A possible solution may be to initiate nuclear reprogramming prior to SCNT. METHODS: Pre-exposure of donor somatic cell nuclei to a novel porcine ooplasmic extract prior to microinjection could possibly extend the duration of exposure to ooplamic nuclear reprogramming factors. The effects of the porcine ooplamic extract on two major markers of nuclear preprogramming: (1) TATA box protein binding to chromation and (2) DNA methylation was investigated. RESULTS: The results showed that pre-exposure of mouse cumulus cell nuclei to porcine ooplamic extract drastically reduced TATA box protein binding to chromatin, but had no effect on DNA methylation. CONCLUSIONS: Pre-exposure to the porcine ooplasmic extract had some limited effects on nuclear reprogramming. Whether this can lead to enhanced cloning efficiency needs to be further investigated.


Subject(s)
Chromatin/metabolism , DNA Methylation , Nuclear Transfer Techniques , Oocytes/physiology , TATA-Box Binding Protein/metabolism , Tissue Extracts/pharmacology , Animals , Cell Nucleus/physiology , Female , Immunohistochemistry , Mice , Swine
7.
Theriogenology ; 66(5): 1300-6, 2006 Sep 15.
Article in English | MEDLINE | ID: mdl-16701816

ABSTRACT

To improve efficiency and assess variation in nuclear transfer techniques in non-human primates, we investigated the following factors: type of donor cell, interval between enucleation and cell injection, activation after electrical pulsing and cytokinesis inhibitors. An average of 16.4 oocytes were recovered from 91 retrievals; however, 15 (14%) additional retrieval attempts yielded no oocytes due to a failure of follicular stimulation. Oocyte maturation rates at 36, 38 and 40 h post-hCG were 46.2, 52.6 and 61.2%, respectively. The MII spindle could be seen clearly using polarized microscopy in 89.1% (614/689) of oocytes. Nuclei were seen in 42% of the NT couplets, 53% of those cleaved to the 2-cell stage and 63% of the 2-cell embryos developed to the 8-cell stage by Day 3. There was no difference in the occurrence of nuclear formation between couplets created using fibroblasts or cumulus cells, although embryos were more reliably produced with fibroblasts. The interval (2, 3 and 4 h) between enucleation and cell injection did not affect NT efficiency. Ethanol treatment after electrical pulses yielded more 2-cell NT embryos than did treatment with ionomycin, but the frequency of nuclear formation and development to the 8-cell stage was not different. Treatment of couplets with cycloheximide and cytochalasin B for 5 h after activation had no impact on NT efficiency.


Subject(s)
Cloning, Organism , Macaca/embryology , Nuclear Transfer Techniques , Oocytes/physiology , Ovarian Follicle/cytology , Animals , Blastocyst/cytology , Blastocyst/physiology , Cell Division , Cycloheximide/pharmacology , Cytochalasin B/pharmacology , Embryo Transfer/veterinary , Female , Fibroblasts/cytology , Fibroblasts/physiology , Oocytes/cytology , Pregnancy , Protein Synthesis Inhibitors/pharmacology , Tissue and Organ Harvesting/methods , Tissue and Organ Harvesting/veterinary
8.
Cell Tissue Res ; 325(2): 231-43, 2006 Aug.
Article in English | MEDLINE | ID: mdl-16596391

ABSTRACT

Somatic cell nuclear transfer has successfully been used to clone several mammalian species including the mouse, albeit with extremely low efficiency. This study investigated gene expression in cloned mouse embryos derived from cumulus cell donor nuclei, in comparison with in vivo fertilized mouse embryos, at progressive developmental stages. Enucleation was carried out by the conventional puncture method rather than by the piezo-actuated technique, whereas nuclear transfer was achieved by direct cumulus nuclear injection. Embryonic development was monitored from chemically induced activation on day 0 until the blastocyst stage on day 4. Poor developmental competence of cloned embryos was observed, which was confirmed by lower cell counts in cloned blastocysts, compared with the in vivo fertilized controls. Subsequently, real-time polymerase chain reaction was used to analyze and compare embryonic gene expression at the 2-cell, 4-cell, and blastocyst stages, between the experimental and control groups. The results showed reduced expression of the candidate genes in cloned 2-cell stage embryos, as manifested by poor developmental competence, compared with expression in the in vivo fertilized controls. Cloned 4-cell embryos and blastocysts, which had overcome the developmental block at the 2-cell stage, also showed up-regulated and down-regulated expression of several genes, strongly suggesting incomplete nuclear reprogramming. We have therefore demonstrated that aberrant embryonic gene expression is associated with low developmental competence of cloned mouse embryos. To improve the efficiency of somatic cell nuclear transfer, strategies to rectify aberrant gene expression in cloned embryos should be investigated.


Subject(s)
Cell Nucleus/genetics , Cloning, Organism , Gene Expression Profiling , Nuclear Transfer Techniques , Animals , Cloning, Organism/methods , Embryo Transfer , Female , Male , Mice , Mice, Inbred C57BL
9.
Reprod Biomed Online ; 12(1): 50-9, 2006 Jan.
Article in English | MEDLINE | ID: mdl-16454934

ABSTRACT

This study examines in-vitro maturation (IVM) in a non-human primate model, Macaca fascicularis. The animals had hormonal injections and laparoscopic oocyte retrieval (OR)) at 12- and 24- h after human chorionic gonadotrophin (HCG). The immature oocytes were placed in tightly capped tubes containing pre-equilibrated IVM medium and transported for 5 h in a dry portable 37 degrees C incubator without CO2 supplement. Meiotic spindle was observed at 36-38- h post-HCG by polarized microscopy in 72 and 84.5% of mature oocytes collected at 12- and 24- h post-HCG oocyte retrieval intervals respectively. However, abnormal spindle formations were detected in some IVM oocytes by confocal microscopy. The IVM oocytes were also randomly selected for (i) intracytoplasmic injection with frozen-thawed epididymal M. fascicularis spermatozoa and (ii) nuclear transfer (NT) with fresh M. fascicularis cumulus cells. Embryonic development of sperm-injected embryos was not affected by the 12- and 24- h post-HCG oocyte retrieval intervals (22.5 versus 27.9% respectively). However, embryonic development of NT embryos was significantly affected by the 12- h post-HCG oocyte retrieval interval (4.5 versus 31.7% respectively; P < 0.01). In conclusion, IVM of monkey oocytes in a dry portable incubator for 5 h did not affect the maturation rate. However, the ability of primate oocytes to develop after somatic cell nuclear transfer was affected by oocyte retrieval time post-HCG.


Subject(s)
Cell Culture Techniques/methods , Macaca fascicularis , Oocytes/cytology , Specimen Handling/methods , Sperm Injections, Intracytoplasmic , Zygote/growth & development , Animals , Chorionic Gonadotropin , Female , Microscopy, Confocal , Spindle Apparatus/ultrastructure , Time Factors
10.
Cloning Stem Cells ; 8(4): 251-8, 2006.
Article in English | MEDLINE | ID: mdl-17196090

ABSTRACT

In order to improve somatic cell nuclear transfer (SCNT) efficiency and to understand cellular changes in SCNT, the dynamic changes in microtubules/DNA and early development of SCNT embryos with single or multiple pronuclei were investigated, along with activation timing on efficiency of SCNT, were studied in the Cynomolgus monkey. The confocal images showed that microtubules assembled around condensed DNA at 1h after cell injection; normal or abnormal reconstructed spindle formed at 2 h after cell injection; and reconstructed spindle separated at 2 h after activation. The results of nuclear formation showed that 61.3% of the reconstructed embryos did not form pronuclei; 19.3% formed a single nucleus, and 11.9% and 7.5% formed two and more than two reconstructed pronuclei, respectively. The cleavage and 8-cell development rates of SCNT embryos with pronuclei were significantly higher than those without pronuclei, but there was no difference in development rates among NT embryos with single, two and more then two pronuclei. Activation at 2 h after cell injection yielded more embryos with pronuclei and yielded 8-cell NT embryos more reliably than did activation at 3-4 h. In conclusion, microtubules assembled around condensed DNA at 1-2 h after cell injection, and formed a spindle at 2 h after SCNT, which separated at 2 h after activation; early development was affected by activation time, but no different between single and multiple pronuclei.


Subject(s)
DNA/metabolism , Embryonic Development , Macaca fascicularis/embryology , Microtubules/metabolism , Nuclear Transfer Techniques , Animals , Cell Nucleus/metabolism , Chromosomes/metabolism , Cloning, Organism , Female , Macaca fascicularis/genetics , Oocytes/cytology
11.
Int J Cardiol ; 100(3): 355-62, 2005 Apr 28.
Article in English | MEDLINE | ID: mdl-15884190

ABSTRACT

Cell transplantation therapy is emerging as a promising mode of treatment following myocardial infarction. Of the various cell types that can potentially be used for transplantation, autologous skeletal myoblasts appear particularly attractive, because this would avoid issues of immunogenicity, tumorigenesis, ethics and donor availability. Additionally, skeletal myoblasts display much higher levels of ischemic tolerance and graft survival compared to other cell types. There is some evidence for improvement in heart function with skeletal myoblast transplantation. However, histological analysis revealed that transplanted myoblasts do not transdifferentiate into functional cardiomyocytes in situ. This is evident by the lack of expression of cardiac-specific antigens, and the absence of intercalated disc formation. Instead, there is differentiation into myotubes that are not electromechanically coupled to neighboring cardiomyocytes. This could in turn limit the clinical efficacy of treatment. This review would therefore examine the various challenges faced in attempting to reprogram autologous skeletal myoblast to express cardiomyogenic function, together with the various possible strategies that could be employed to achieve this objective.


Subject(s)
Myoblasts, Skeletal/metabolism , Myoblasts, Skeletal/transplantation , Cell Differentiation/physiology , Cells, Cultured , Heart Failure/physiopathology , Humans , Myocytes, Cardiac/physiology , Recovery of Function , Transcription Factors/physiology , Transplantation, Autologous
12.
Theriogenology ; 63(8): 2300-10, 2005 May.
Article in English | MEDLINE | ID: mdl-15826691

ABSTRACT

The need to transport oocytes and embryos between two laboratories have prompted us to evaluate the effects of in vitro maturation of immature mouse oocytes in a CO2-deficient dry heat portable incubator and subsequent in vitro development of these fertilized mouse oocytes in a standard CO2 incubator. In addition, the effects of cysteamine supplementation on maturation rate and embryonic development during in vitro maturation (IVM) and culture of embryos in the portable incubator were also investigated. Germinal vesicle stage mouse oocytes, recovered at 40-h post-FSH from 6- to 8-week-old C57BL/6xCBA F1 healthy female mice, were matured in vitro in a modified TCM-199 supplemented with or without 100 microM cysteamine in a standard incubator (5% CO2; 37 degrees C) or cultured in a CO2-deficient dry heat portable incubator for 5 h at 37 degrees C and thereafter transferred to a standard incubator for further culture. The addition of cysteamine in the IVM medium significantly improved maturation rates of the GV mouse oocytes to metaphase II stage. However, cysteamine supplementation in the culture medium did not significantly improve fertilization and blastocyst formation rates of IVM and ovulated oocytes, and in vivo-derived zygotes. Culture conditions in a CO2-deficient dry heat portable incubator did not adversely affect the developmental competence of in vivo-derived zygotes and in vitro matured mouse oocytes after IVF or parthenogenetic activation. Cysteamine supplement in the IVM medium could enhance nuclear maturation of these immature oocytes during shipment.


Subject(s)
Cell Culture Techniques/veterinary , Cysteamine/administration & dosage , Fertilization in Vitro/veterinary , Incubators/veterinary , Oocytes/physiology , Animals , Carbon Dioxide/administration & dosage , Cell Culture Techniques/methods , Culture Media , Embryo Culture Techniques/methods , Embryo Culture Techniques/veterinary , Embryonic Development/drug effects , Female , Hot Temperature , Mice , Mice, Inbred C57BL , Mice, Inbred CBA
13.
Acta Cardiol ; 60(1): 7-12, 2005 Feb.
Article in English | MEDLINE | ID: mdl-15779844

ABSTRACT

Several studies have shown that cell-transplantation therapy following myocardial infarction has some efficacy in aiding myocardial repair and subsequent recovery of heart function. Large-scale production of human embryonic stem cell-derived cardiomyocytes can potentially provide an abundant supply of donor cells for myocardial transplantation. There are, however, immunological barriers to their use in human clinical therapy.A novel approach would be to look at utilizing human embryonic stem cell-derived cardiomyocytes to reprogram autologous adult stem cells to express cardiomyogenic function, instead of using these directly for transplantation. This could be achieved through a number of novel techniques. Enucleated cytoplasts generated from human embryonic stem cell-derived cardiomyocytes could be fused with autologous adult stem cells to generate cytoplasmic hybrids or cybrids. Adult stem cells could also be temporarily permeabilized and exposed to cytoplasmic extracts derived from these cardiomyocytes. Alternatively, intact cells or enucleated cytoplasts from human embryonic stem cell-derived cardiomyocytes could be co-cultured with adult stem cells in vitro, to provide the cellular contacts and electrical coupling that might enable some degree of trans-differentiation to take place. This review would therefore examine the potential advantages and disadvantages of such a novel approach, in comparison to other more conventional techniques such as the use of exogenous cytokines/growth factors or the use of genetic modulation.


Subject(s)
Myocardial Infarction/therapy , Myocytes, Cardiac/transplantation , Stem Cell Transplantation/standards , Transplantation Immunology/physiology , Adult , Animals , Cell Differentiation , Cell Lineage , Clinical Trials, Phase I as Topic , Disease Models, Animal , Forecasting , Graft Rejection , Graft Survival , Humans , Myocardial Infarction/diagnosis , Sensitivity and Specificity , Severity of Illness Index , Stem Cell Transplantation/trends , Transplantation, Autologous , Treatment Outcome
14.
Stem Cells Dev ; 14(1): 11-4, 2005 Feb.
Article in English | MEDLINE | ID: mdl-15725740

ABSTRACT

Fertility clinics worldwide routinely produce a large volume of 'waste' follicular aspirate, which is potentially an abundant source of immature ovarian follicles. Current attempts to cultivate these further in vitro to yield viable mature oocytes for fertility treatment have not yet achieved much success. Instead, recent lines of evidence have emerged that are suggestive of a potential stem cell niche within such immature ovarian follicles. The recent discovery of follicular renewal and putative germ-line stem cells within the postnatal mammalian ovary shook the foundations of reproductive biology by challenging the established dogma that mammalian females lose the capacity for germ cell renewal during fetal life, such that a fixed reserve of germ cells (oocytes) enclosed within follicles is endowed at birth. More intriguingly, another recent study in the Drosophila model provided compelling evidence that somatic progenies (nurse cells) of germ-line stem cells had the ability to revert back to the stem-cell-like state. This introduces the exciting possibility that within the mammalian ovarian follicle, similar somatic progenies of germ-line stem cells may also possess a greater intrinsic ability to revert back into functional stem cells. If this is the case, then a favored candidate would be the cumulus/granulosa of immature ovarian follicles, since such cells are true homologues of nurse cells found within the Drosophila ovary. The successful elucidation of a human germ-line stem cell niche within immature ovarian follicles is likely to have huge ramifications in stem cell biology and regenerative medicine.


Subject(s)
Germ Cells/cytology , Ovarian Follicle/cytology , Stem Cells/cytology , Animals , Cell Culture Techniques/methods , Cell Division , Female , Humans , Mice
15.
Reprod Med Biol ; 4(3): 207-211, 2005 Sep.
Article in English | MEDLINE | ID: mdl-29699224

ABSTRACT

Aim: Ovarian hyperstimulation syndrome (OHSS) is a potentially life-threatening, iatrogenic complication of assisted reproduction and has been associated with poor in vitro fertilization outcome. The aim of the present study was to evaluate the pregnancy rate and outcome following severe OHSS, at a single center over a three-year period. Methods: The incidence of severe OHSS at the IVF Center, National University of Singapore, in Singapore, was 4% (48 cases over 1200 cycles) during the period of 1997-2000. The present retrospective study compared 48 cases of severe OHSS to 144 age-matched, contemporaneous controls without OHSS. Results: The total gonadotropin required for severe OHSS group was found to be lower than for that of controls (2664.06 ± 768.29 IU vs 3349.58 ± 2003.73 IU), although duration of stimulation was similar. The OHSS group was associated with a fivefold increase (OR 5.293, 95% CI: 2.116-13.238) in pregnancy rate compared to controls (87.5% vs 56.9%; P < 0.05). Late OHSS was more common (38/48 cases) and had a pregnancy rate of 97% per embryo transfer. There was no significant difference in the multiple pregnancy (54% vs 48%; P > 0.05) and miscarriage rates (14% vs 7.3%; P > 0.05) between the groups. Conclusion: Severe OHSS at our center were mostly late onset. The pregnancy rate was significantly higher, but multiple pregnancy and miscarriage rates were not significantly increased when compared to the age-matched contemporaneous controls. (Reprod Med Biol 2005; 4: 207-211).

16.
Stem Cells Dev ; 13(5): 460-2, 2004 Oct.
Article in English | MEDLINE | ID: mdl-15588503

ABSTRACT

Application of embryonic and adult stem cells in regenerative medicine will require efficient protocols for directing stem cell differentiation into well-defined lineages. Differentiation induced by exogenous cytokines, growth factors, or extracellular matrix components will require extended in vitro culture that would delay autologous transplantation and may well alter the immunogenicity of cultured cells. Genetic modulation to direct stem cell differentiation may obviate prolonged culture, but safety concerns preclude clinical application of genetically altered cells in the foreseeable future A novel alternative would be to incorporate protein transduction domains (PTDs) into recombinant transcription factors that play important roles in somatic differentiation. Such protein-engineered transcription factors would then have the ability to translocate across the cell membrane and be internalized within the cytosol, where they would act as paracrine signaling molecules. Upon internalization, the recombinant transcription factors would only have a limited active half-life, so that their effects may only be transient. However, this could provide sufficient stimulus for initiating stem cell differentiation into a required lineage.


Subject(s)
Cell Differentiation , Pluripotent Stem Cells/cytology , Stem Cell Transplantation/methods , Stem Cells/cytology , Transcription Factors/physiology , Cell Lineage , Cytosol/metabolism , Humans , Permeability , Protein Engineering , Protein Structure, Tertiary , Signal Transduction , Transcription, Genetic
18.
Theriogenology ; 62(6): 1066-92, 2004 Sep 15.
Article in English | MEDLINE | ID: mdl-15289048

ABSTRACT

A less competent murine in vitro maturation (IVM) model was achieved by shortening the standard duration of in vivo PMSG stimulation from 48 to 24 h and selecting only naked/partially naked GV oocytes from a mixture of large and small follicles. Porcine granulosa coculture enhanced meiotic maturation within such a less competent model (37.3% versus 23.1%, P<0.05), while no significant enhancement was observed with macaque and murine granulosa coculture. Culture of porcine granulosa on extracellular matrix (ECM) gel resulted in a more differentiated morphology, but did not significantly further enhance the beneficial effects it already had on meiotic maturation. Increased concentrations of serum as well as the supplementation of gonadotrophins and follicular fluid within the culture milieu did not enhance IVM under both cell-free and coculture conditions. Porcine granulosa-conditioned medium also enhanced meiotic maturation (36.5% versus 26.7%, P<0.05), which was not diminished upon freeze-thawing (35.8% versus 22.6%, P<0.05). Enhancement of meiotic maturation by porcine granulosa coculture did not however translate to significant improvements in developmental competence, as assessed by in vitro fertilization (IVF) and embryo culture to the blastocyst stage, followed by total cell counts. ECM gel had a detrimental effect on fertilization and developmental competence, even though it had no detrimental effect on meiotic maturation itself.


Subject(s)
Coculture Techniques , Granulosa Cells/physiology , Meiosis , Oocytes/cytology , Animals , Blastocyst/physiology , Blood , Cells, Cultured , Culture Media, Conditioned , Culture Techniques , Embryonic and Fetal Development , Extracellular Matrix , Female , Fertilization in Vitro/veterinary , Follicular Fluid , Gonadotropins, Equine/administration & dosage , Macaca fascicularis , Mice , Models, Animal , Oocytes/growth & development , Swine
19.
Development ; 131(10): 2475-84, 2004 May.
Article in English | MEDLINE | ID: mdl-15128675

ABSTRACT

Production of genetically identical non-human primates through somatic cell nuclear transfer (SCNT) can provide diseased genotypes for research and clarify embryonic stem cell potentials. Understanding the cellular and molecular changes in SCNT is crucial to its success. Thus the changes in the first cell cycle of reconstructed zygotes after nuclear transfer (NT) of somatic cells in the Long-tailed Macaque (Macaca fascicularis) were studied. Embryos were reconstructed by injecting cumulus and fibroblasts from M. fascicularis and M. silenus, into enucleated M. fascicularis oocytes. A spindle of unduplicated premature condensed chromosome (PCC spindle) from the donor somatic cell was formed at 2 hours after NT. Following activation, the chromosomes segregated and moved towards the two PCC spindle poles, then formed two nuclei. Twenty-four hours after activation, the first cell division occurred. A schematic of the first cell cycle changes following injection of a somatic cell into an enucleated oocyte is proposed. Ninety-three reconstructed embryos were transferred into 31 recipients, resulting in 7 pregnancies that were confirmed by ultrasound; unfortunately none progressed beyond 60 days.


Subject(s)
Cell Cycle/physiology , Cell Nucleus/ultrastructure , Fibroblasts/cytology , Macaca fascicularis/embryology , Nuclear Transfer Techniques , Animals , Cell Division , Cell Nucleus/physiology , Cells, Cultured , Embryonic and Fetal Development , Female , Flow Cytometry , Genotype , Male , Pregnancy
20.
Cardiovasc Res ; 62(1): 34-42, 2004 Apr 01.
Article in English | MEDLINE | ID: mdl-15023550

ABSTRACT

Most studies on stem cell transplantation therapy on myocardially infarcted animal models and phase-I human clinical trials have focused on the use of undifferentiated stem cells. There is a strong possibility that some degree of cardiomyogenic differentiation of stem cells in vitro prior to transplantation would result in higher engraftment efficiency, as well as enhanced myocardial regeneration and recovery of heart function. Additionally, this may also alleviate the probability of spontaneous differentiation of stem cells into undesired lineages and reduces the risk of teratoma formation, in the case of embryonic stem cells. The development of efficient protocols for directing the cardiomyogenic differentiation of stem cells in vitro will also provide a useful model for molecular studies and genetic manipulation. This review therefore critically examines the various techniques that could possibly be used to direct and control the cardiomyogenic differentiation of stem cells in vitro.


Subject(s)
Myocytes, Cardiac/physiology , Stem Cells/physiology , Animals , Cell Differentiation/drug effects , Cells, Cultured , Culture Media , Extracellular Matrix Proteins/pharmacology , Humans , Myocardial Ischemia/surgery , Myocytes, Cardiac/transplantation , Reactive Oxygen Species/pharmacology , Stem Cell Transplantation
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