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Histone deacetylase inhibitor trichostatin A affects porcine oocyte maturation in vitro
Jin, Yong-Xun,Zhao, Ming-Hui,Zheng, Zhong,Kwon, Jung-Suk,Lee, Seul-Ki,Cui, Xiang-Shun,Kim, Nam-Hyung CSIRO Publishing 2014 Reproduction, fertility, and development Vol.26 No.6
<P> Previous studies show that porcine oocyte aging resulting from asynchronised IVM impairs embryo developmental competence. In the present study we investigated whether trichostatin A (TSA; an inhibitor of histone deacetylation) prolongs the maturation time and prevents the aging of oocytes. Porcine oocytes were cultured in medium containing increasing concentrations of TSA (300 nM) for 24, 44 or 64 h. The percentage of oocytes that underwent germinal vesicle breakdown was significantly lower in the TSA-treated group (300 nM) than in the control group. TSA did not affect oocyte quality at MII based on levels of maturation-promoting factor, the phosphorylation status of mitogen-activated protein kinase or histone H3K9 acetylation analysis. We also compared the preimplantation developmental competence and the viability of pathenogenetic embryos treated with 100 nM TSA for 24 h and then continuously cultured for another 24 h in TSA free condition. No significant differences were observed for either parameter between the TSA-treated and control groups. These results indicate that TSA prolongs the IVM of porcine oocytes but that oocyte quality and aging are not affected. These findings provide a feasible option by which to adjust the initiation time of downstream experiments based on porcine matured oocytes. </P>
TSA Inhibit in Prolonging GVBD which Results Artificial Control of Oocytes Maturation Time
Yong-Xun Jin,Xing-Wei Liang,Sung-Hyun Lee,Xiang-Shun Cui,Nam-Hyung Kim 한국동물번식학회 2012 Reproductive & Developmental Biology(Supplement) Vol.36 No.2s
Although evidences showed that histone deacetylation plays an important role in the mitotic and meiotic cell cycle, but the mechanisms are still unclear. Level of histone acetylation can be easily changed by deacetylase inhibitors (HDACi) i.e trichostatin A (TSA) and valporic acid. In this study, we determined whether the inhibition of histone deacetylation by TSA could affect porcine oocyte maturation and aging process. Our results showed that treated COCs with 100 nM TSA significantly increase the GVBD in each time group than 0, 5, 50 nM but no significantly different from that of higher concentration (200 nm or 300 nM). No significant differences on maturation, blastocyst development, MAPK pattern and expressions of apoptosis gene when treated oocytes with 100 nM TSA for the first 24h of IVM compared with control and 5, 50 nM TSA. However, in the oocytes treated with 200 nM and 300 nM TSA for first 24 h, MAPK significantly decreased and abnormal spindle were observed. But, in prolonged (64 h) of TSA treated group has no significantly different in control. Another data observed that after 24h TSA-treat to prolonged group were significantly decreased of MAPK activation and normal spindle than the other group. We concluded that TSA played a critical role in meiotic progression in porcine oocytes through the regulation of arrest GVBD, which prolonging the in vitro maturation time, but unaffected the subsequent pre-implantation embryo developmental potential and embryonic qualities. Moreover, the histone deacetylase inhibitor TSA may artificially control porcine oocyte maturation time and delay porcine oocyte aging process.
Jin, Yong-Xun,Zheng, Zhong,Yu, Xian-Feng,Zhang, Jia-Bao,Namgoong, Suk,Cui, Xiang-Shun,Hyun, Sang-Hwan,Kim, Nam-Hyung Cambridge University Press 2016 Zygote Vol.24 No.1
<B>Summary</B><P>The mitochondrial genome is maternally inherited in animals, despite the fact that paternal mitochondria enter oocytes during fertilization. Autophagy and ubiquitin-mediated degradation are responsible for the elimination of paternal mitochondria in <I>Caenorhabditis elegans</I>; however, the involvement of these two processes in the degradation of paternal mitochondria in mammals is not well understood. We investigated the localization patterns of light chain 3 (LC3) and ubiquitin in mouse and porcine embryos during preimplantation development. We found that LC3 and ubiquitin localized to the spermatozoon midpiece at 3 h post-fertilization, and that both proteins were colocalized with paternal mitochondria and removed upon fertilization during the 4-cell stage in mouse and the zygote stage in porcine embryos. Sporadic paternal mitochondria were present beyond the morula stage in the mouse, and paternal mitochondria were restricted to one blastomere of 4-cell embryos. An autophagy inhibitor, 3-methyladenine (3-MA), did not affect the distribution of paternal mitochondria compared with the positive control, while an autophagy inducer, rapamycin, accelerated the removal of paternal mitochondria compared with the control. After the intracytoplasmic injection of intact spermatozoon into mouse oocytes, LC3 and ubiquitin localized to the spermatozoon midpiece, but remnants of undegraded paternal mitochondria were retained until the blastocyst stage. Our results show that paternal mitochondria colocalize with autophagy receptors and ubiquitin and are removed after <I>in vitro</I> fertilization, but some remnants of sperm mitochondrial sheath may persist up to morula stage after intracytoplasmic spermatozoon injection (ICSI).</P>
Cat fertilization by mouse sperm injection
Jin, Yong-Xun,Cui, Xiang-Shun,Yu, Xian-Feng,Lee, Sung-Hyun,Wang, Qing-Ling,Gao, Wei-Wei,Xu, Yong-Nan,Sun, Shao-Chen,Kong, IL-Keun,Kim, Nam-Hyung Cambridge University Press 2012 Zygote Vol.20 No.4
<B>Summary</B><P>Interspecies intracytoplasmic sperm injection has been carried out to understand species-specific differences in oocyte environments and sperm components during fertilization. While sperm aster organization during cat fertilization requires a paternally derived centriole, mouse and hamster fertilization occur within the maternal centrosomal components. To address the questions of where sperm aster assembly occurs and whether complete fertilization is achieved in cat oocytes by interspecies sperm, we studied the fertilization processes of cat oocytes following the injection of cat, mouse, or hamster sperm. Male and female pronuclear formations were not different in the cat oocytes at 6 h following cat, mouse or hamster sperm injection. Microtubule asters were seen in all oocytes following intracytoplasmic injection of cat, mouse or hamster sperm. Immunocytochemical staining with a histone H3-m2K9 antibody revealed that mouse sperm chromatin is incorporated normally with cat egg chromatin, and that the cat eggs fertilized with mouse sperm enter metaphase and become normal 2-cell stage embryos. These results suggest that sperm aster formation is maternally dependent, and that fertilization processes and cleavage occur in a non-species specific manner in cat oocytes.</P>
Chromatin, microtubule and microfilament configurations in the canine oocyte
Jin, Yong-Xun,Lee, Hyo-Sang,Yin, Xi-Jun,Cui, Xiang-Shun,Kong, Il-Keun,Kim, Nam-Hyung CSIRO Publishing 2006 Reproduction, fertility, and development Vol.18 No.8
<P>In the present study, we observed chromatin, microtubule and microfilament distribution in canine oocytes. The germinal vesicle (GV) chromatin of canine oocytes was classified into four configurations (GV-I, -II, -III and -IV) based on the degree of chromatin separation and condensation. Oocytes recovered from follicular phase ovaries had a greater amount (68%, P < 0.05) of GV-III or GV-IV chromatin than did those from non-follicular phase ovaries (35%). The majority (86.7%) of in vivo ovulated oocytes were at GV-IV. The rates of development to GV breakdown/metaphase I/metaphase II were higher in oocytes recovered from follicular ovaries than from non-follicular ovaries. Immunostaining results revealed cytoplasmic microtubules present in all GV-stage oocytes. Following GV breakdown, microtubular asters were produced from condensed chromatin. The asters appeared to be elongated, and encompassed condensed chromatin particles to form meiotic metaphase chromatin. Microfilaments were located in the cortex and around the GV. During meiotic maturation, a microfilament-rich area, in which the chromatin is allocated, was observed in the oocyte. Our results indicate that oocytes recovered from follicular ovaries were in an advanced stage of GV, and were more competent to complete maturation compared to those from non-follicular phase ovaries. Both microtubules and microfilaments are closely associated with reconstruction of chromatin during meiotic maturation in canine oocytes.</P>