Na Liu scite author profile

Control of oocyte aging in vitro is important for both human-assisted reproduction and animal embryo technologies because fertilization or artificial activation of aged oocytes results in abnormal development. Interactions between somatic and germ cells are also an important issue in current biological research. The role of cumulus cells (CCs) in maturation, ovulation, and fertilization of oocytes has been extensively studied, yet little is known about their role in oocyte aging. Although our previous study has shown that CCs accelerate the aging progression of mouse oocytes, the mechanism by which CCs accelerate oocyte aging is unknown. In this study, cumulus-denuded mouse oocytes (DOs) were co-cultured with cumulus-oocyte complexes (COCs) or CC monolayer or cultured in medium conditioned with these cells and changes in the susceptibility to activating stimuli and in MPF activity of oocytes were evaluated after different aging treatments. The results showed that culture with or in medium conditioned with COCs or CC monolayer promoted activation of DOs, indicating that a soluble factor is responsible for the aging-promoting effect. The in vivo and in vitro-matured DOs did not differ in responsiveness to the aging-promoting factor (APF). Heat shock did not accelerate oocyte aging unless in the presence of CCs. The production of APF was not affected by the age or maturation system of COCs, but increased with their density and duration of culture. The results strongly suggest that CCs accelerated oocyte aging by secreting a soluble APF into the medium. Further analysis showed that the APF was heat labile but stable to freezing, it had a threshold effective concentration and can be depleted by DOs.

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Effects of heat stress during in vitro maturation on cytoplasmic versus nuclear components of mouse oocytes

Wang¹,

Sui²,

Miao³

et al. 2009

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The objectives of this study were to investigate the effect of heat stress during in vitro maturation on the developmental potential of mouse oocytes and to determine whether the deleterious effect was on the nuclear or cytoplasmic component. While rates of oocyte nuclear maturation (development to the metaphase II stage) did not differ from 37 to 40 8C, rates for blastocyst formation decreased significantly as maturation temperature increased from 38.5 to 39 8C. Chromosome spindle exchange showed that while blastocyst formation did not differ when spindles matured in vivo or in vitro at 37, 40 or 40.7 8C were transplanted into in vivo matured cytoplasts, no blastocyst formation was observed when in vivo spindles were transferred into the 40 8C cytoplasts. While oocytes reconstructed between 37 8C ooplasts and 37 or 40 8C karyoplasts developed into 4-cell embryos at a similar rate, no oocytes reconstituted between 40 8C ooplasts and 37 8C spindles developed to the 4-cell stage. Immunofluorescence microscopy revealed impaired migration of cortical granules and mitochondria in oocytes matured at 40 8C compared with oocytes matured at 37 8C. A decreased glutathione/GSSG ratio was also observed in oocytes matured at 40 8C. While spindle assembling was normal and no MAD2 was activated in oocytes matured at 37 or 40 8C, spindle assembling was affected and MAD2 was activated in some of the oocytes matured at 40.7 8C. It is concluded that 1) oocyte cytoplasmic maturation is more susceptible to heat stress than nuclear maturation, and 2) cytoplasmic rather than nuclear components determine the pre-implantation developmental capacity of an oocyte.

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Generation of Healthy Mice from Gene-Corrected Disease-Specific Induced Pluripotent Stem Cells

Liu

Rittelmeyer

et al. 2011

PLoS Biol

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Using the murine model of tyrosinemia type 1 (fumarylacetoacetate hydrolase [FAH] deficiency; FAH −/− mice) as a paradigm for orphan disorders, such as hereditary metabolic liver diseases, we evaluated fibroblast-derived FAH −/−-induced pluripotent stem cells (iPS cells) as targets for gene correction in combination with the tetraploid embryo complementation method. First, after characterizing the FAH −/− iPS cell lines, we aggregated FAH −/−-iPS cells with tetraploid embryos and obtained entirely FAH −/−-iPS cell–derived mice that were viable and exhibited the phenotype of the founding FAH −/− mice. Then, we transduced FAH cDNA into the FAH −/−-iPS cells using a third-generation lentiviral vector to generate gene-corrected iPS cells. We could not detect any chromosomal alterations in these cells by high-resolution array CGH analysis, and after their aggregation with tetraploid embryos, we obtained fully iPS cell–derived healthy mice with an astonishing high efficiency for full-term development of up to 63.3%. The gene correction was validated functionally by the long-term survival and expansion of FAH-positive cells of these mice after withdrawal of the rescuing drug NTBC (2-(2-nitro-4-fluoromethylbenzoyl)-1,3-cyclohexanedione). Furthermore, our results demonstrate that both a liver-specific promoter (transthyretin, TTR)-driven FAH transgene and a strong viral promoter (from spleen focus-forming virus, SFFV)-driven FAH transgene rescued the FAH-deficiency phenotypes in the mice derived from the respective gene-corrected iPS cells. In conclusion, our data demonstrate that a lentiviral gene repair strategy does not abrogate the full pluripotent potential of fibroblast-derived iPS cells, and genetic manipulation of iPS cells in combination with tetraploid embryo aggregation provides a practical and rapid approach to evaluate the efficacy of gene correction of human diseases in mouse models.

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Coculture with cumulus cells improves maturation of mouse oocytes denuded of the cumulus oophorus: observations of nuclear and cytoplasmic events

Sui

Lan

et al. 2008

Fertility and Sterility

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Na Liu

Cumulus cells accelerate aging of mouse oocytes by secreting a soluble factor(s)

Effects of heat stress during in vitro maturation on cytoplasmic versus nuclear components of mouse oocytes

Generation of Healthy Mice from Gene-Corrected Disease-Specific Induced Pluripotent Stem Cells

Coculture with cumulus cells improves maturation of mouse oocytes denuded of the cumulus oophorus: observations of nuclear and cytoplasmic events

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