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RISS 인기검색어
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- 발행기관 : Published for the European Society for Human Repro (검색결과 4 건)
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Dynamic interaction of formin proteins and cytoskeleton in mouse oocytes during meiotic maturation.
Kwon, Sojung,Shin, Hyejin,Lim, Hyunjung Jade Published for the European Society for Human Repro 2011 Molecular human reproduction Vol.17 No.5
<P>Formin-2 (Fmn2) nucleates actin filaments required for spindle migration during the metaphase of meiosis I in mouse oocytes. While recent studies showed that Fmn2 is involved in the formation of a dynamic actin meshwork on meiotic spindle and the migration of chromosomes, the precise location and the mechanism of action of Fmn2 in the mouse oocyte is not known. In this work, we show that Fmn2 is colocalized with spindle during metaphase I (MI) and this pattern is lost in nocodazole-treated oocytes. Fmn2 directly interacts with polymerized microtubules (MTs) in vitro via a well-conserved domain called formin homology 2 (FH2). Microinjection of mRNA encoding formin homology 1 (FH1)FH2 domains of Fmn2 into Fmn2-/- oocytes partially rescued the defect of polar body extrusion, while mRNAs encoding FH2 domain alone could not rescue the defect. mDia1 and mDia2, Diaphanous (Dia) subfamily of formin proteins, exhibit unique patterns of expression in mouse oocytes. While mDia1 is localized on meiotic spindle, mDia2 localization is confined in spindle poles similar to γ-tubulin. Collectively, our results suggest that the ability of Fmn2 to directly interact with MTs and to polymerize actins via the conserved FH1FH2 domains is crucial for chromosomal migration in MI oocytes. We also show that mDia1 and mDia2 are dynamic components of meiotic spindle and pole complex during meiotic maturation of oocytes.</P>
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Complex ovarian defects lead to infertility in Etv5-/- female mice.
Eo, Jinwon,Shin, Hyejin,Kwon, Sojung,Song, Haengseok,Murphy, Kenneth M,Lim, Jade Hyunjung Published for the European Society for Human Repro 2011 Molecular human reproduction Vol.17 No.9
<P>Etv5 is a member of the Etv4 subfamily of Ets transcription factors. In female mice, Etv5 was previously shown to be expressed in the mouse ovary. In this work, we show that Etv5-/- female mice are infertile due to a complex reproductive phenotype. Defects in the ovarian tissue architecture were noted as early as 2 weeks of age in Etv5-/- mice. Adult Etv5-/- female mice show decreased ovulation and no interest in mating even after gonadotrophin treatment. Histological abnormalities were also noted in Etv5-/- ovaries. Injection of 17β-estradiol to gonadotrophin-treated Etv5-/- mice significantly increased ovulation, mating and fertilization rates. However, 2-cell embryos of Etv5-/- females show compromised development, suggesting a role for Etv5 in the developmental competence of embryos. Expression of aromatase (CYP11a1), 17α-hydroxylase/17,20 lyase/17,20 desmolase (CYP17a1), side-chain-cleaving enzyme (CYP19a1) and luteinizing hormone/choriogonadotropin receptor mRNAs was not significantly altered in Etv5-/- ovaries. Collectively, our results suggest that Etv5 is important for the developmental competence of germ cells and the regulation of responses to steroid hormones in female mice.</P>
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Oh, Hoon Kyu,Choi, Youn Seok,Yang, Yeong-In,Kim, Ji-Hyun,Leung, Peter C K,Choi, Jung-Hye Published for the European Society for Human Repro 2013 Molecular human reproduction Vol.19 No.3
<P>Leptin acts as a potential growth stimulator in several normal and neoplastic cells. Recent studies have shown the presence of increased levels of leptin in the peritoneal fluid of patients with endometriosis, implicating leptin in the pathogenesis of endometriosis. However, the specific function of leptin in the induction of mitogenesis in endometriosis is not known. This study investigated the expression of the leptin receptor (ObR) in endometrioma tissues and immortalized endometriotic cells, and the effect of leptin on cell growth. ObR expression was higher in endometriomas than in the normal endometrium, and it was detected in 74% of epithelial and 30% of stromal endometrioma tissues. In addition, human endometriotic epithelial cells (11Z and 12Z) showed a high level of ObR when compared with endometrial cells and endometriotic stromal cells (22B). Furthermore, leptin treatment stimulated the growth of 11Z and 12Z cells, but not that of 22B cells. Knockdown of the ObR in 11Z and 12Z cells impaired the ability of leptin to induce cell growth. Leptin induced the activation of Janus Kinases 2 (JAK2), signal transducers and activators of transcription 3 (STAT3) and extracellular signal-regulated kinase (ERK) in endometriotic epithelial cells. Moreover, pretreatment with the JAK2/STAT3 inhibitor AG490 and the ERK inhibitor PD98059 significantly inhibited leptin-induced cell growth. The present results show that the ObR is induced in endometriosis, and that leptin stimulates the growth of endometriotic epithelial cells through the JAK2/STAT3 and ERK pathways.</P>
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Uncovering a role for endocannabinoid signaling in autophagy in preimplantation mouse embryos.
Oh, Hyun-Ah,Kwon, Sojung,Choi, Soyoung,Shin, Hyejin,Yoon, Kwang Ho,Kim, Wan Jong,Lim, Hyunjung Jade Published for the European Society for Human Repro 2013 Molecular human reproduction Vol.19 No.2
<P>Endocannabinoid signaling plays various roles in directing reproductive processes. Mouse embryos are shown to express high levels of CB1 receptor (CB1R). Low concentrations of anandamide stimulate embryo growth and implantation but at higher concentrations it adversely affects implantation. We tested the hypothesis that high levels of endocannabinoids cause autophagic activation and cell death in preimplantation mouse embryos. We used methanandamide (METH), a selective CB1R agonist, to examine the effect of heightened endocannabinoid signaling on autophagy in mouse embryos. Western blotting, immunofluorescence staining, transmission electron microscopy and TUNEL analysis were performed. We observed that METH treatment in vitro or in vivo up-regulated autophagic response in preimplantation mouse embryos. In blastocysts, apoptosis was also increased after METH injections. At 28 nM, which is considered a high physiological dose to embryonic cells, METH up-regulated autophagic activation in trophoblast stem cells. This work demonstrates for the first time that blastocysts respond to higher than normal levels of endocannabinoid by increasing autophagic activation and apoptosis.</P>
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