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Hua Li Clinical and Translational Research Center, Shanghai First Maternity and Infant Hospital, Tongji University School of Medicine, Shanghai, People’s Republic of China

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Julei Yao Clinical and Translational Research Center, Shanghai First Maternity and Infant Hospital, Tongji University School of Medicine, Shanghai, People’s Republic of China

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Xinwen Chang Clinical and Translational Research Center, Shanghai First Maternity and Infant Hospital, Tongji University School of Medicine, Shanghai, People’s Republic of China

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Jinting Wu Clinical and Translational Research Center, Shanghai First Maternity and Infant Hospital, Tongji University School of Medicine, Shanghai, People’s Republic of China

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Tao Duan Clinical and Translational Research Center, Shanghai First Maternity and Infant Hospital, Tongji University School of Medicine, Shanghai, People’s Republic of China
Department of Obstetrics, Shanghai First Maternity and Infant Hospital, Tongji University School of Medicine, Shanghai, People’s Republic of China

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Kai Wang Clinical and Translational Research Center, Shanghai First Maternity and Infant Hospital, Tongji University School of Medicine, Shanghai, People’s Republic of China

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Preeclampsia (PE) is a pregnancy-specific disorder that is the main cause of maternal and perinatal morbidity and mortality worldwide. Inadequate trophoblastic invasion and endothelial dysfunction in the placenta are considered the foundation of the pathogenesis of preeclampsia in which soluble endoglin (sENG) plays an antiangiogenic role in the development of PE. The leukemia inhibitory factor receptor (LIFR) has been widely studied and is highly involved in arterial injury in vivo and in the migration of cancer cells in vitro. Here, we tested the hypothesis that LIFR may be correlated with preeclampsia through its regulation of the release of sENG. Our data showed that LIFR protein, the expression of which significantly decreased with the progression of pregnancy, was located in the syncytiotrophoblast and cytotrophoblast. The LIFR protein level was increased in pregnancies with preeclampsia compared with normotensive full-term pregnancies. After the overexpression of LIFR in HTR8/SVneo cells, the release of sENG as well as the migration and invasion were significantly enhanced. Moreover, we also observed that LIFR induced the expression of matrix metalloproteinase14 (MMP14) and that the knockdown or inhibition of MMP14 decreased the release of sENG, as well as increased the LIFR-induced migration and invasion of HTR8/SVneo cells. These studies demonstrated that LIFR promoted the release of sENG through MMP14 in vitro, which indicates that LIFR may be involved in the development of preeclampsia.

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Hui-Li Yang Laboratory for Reproductive Immunology, Hospital of Obstetrics and Gynecology, Fudan University, Shanghai, People’s Republic of China
Key Laboratory of Reproduction Regulation of NPFPC, SIPPR, IRD, Fudan University, Shanghai, People’s Republic of China

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Wen-Jie Zhou Laboratory for Reproductive Immunology, Hospital of Obstetrics and Gynecology, Fudan University, Shanghai, People’s Republic of China
Key Laboratory of Reproduction Regulation of NPFPC, SIPPR, IRD, Fudan University, Shanghai, People’s Republic of China
Shanghai Key Laboratory of Female Reproductive Endocrine Related Diseases, Shanghai, People’s Republic of China

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Kai-Kai Chang Laboratory for Reproductive Immunology, Hospital of Obstetrics and Gynecology, Fudan University, Shanghai, People’s Republic of China

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Jie Mei Reproductive Medicine Center, Department of Obstetrics and Gynecology, Nanjing Drum Tower Hospital, The Affiliated Hospital of Nanjing University Medicine School, Nanjing, People’s Republic of China

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Li-Qing Huang Department of Statistics and Psychology, College of Letters and Science, University of California Davis, Davis, California, USA

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Ming-Yan Wang Laboratory for Reproductive Immunology, Hospital of Obstetrics and Gynecology, Fudan University, Shanghai, People’s Republic of China

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Yi Meng Laboratory for Reproductive Immunology, Hospital of Obstetrics and Gynecology, Fudan University, Shanghai, People’s Republic of China

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Si-Yao Ha Laboratory for Reproductive Immunology, Hospital of Obstetrics and Gynecology, Fudan University, Shanghai, People’s Republic of China

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Da-Jin Li Laboratory for Reproductive Immunology, Hospital of Obstetrics and Gynecology, Fudan University, Shanghai, People’s Republic of China
Key Laboratory of Reproduction Regulation of NPFPC, SIPPR, IRD, Fudan University, Shanghai, People’s Republic of China
Shanghai Key Laboratory of Female Reproductive Endocrine Related Diseases, Shanghai, People’s Republic of China

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Ming-Qing Li Laboratory for Reproductive Immunology, Hospital of Obstetrics and Gynecology, Fudan University, Shanghai, People’s Republic of China
Key Laboratory of Reproduction Regulation of NPFPC, SIPPR, IRD, Fudan University, Shanghai, People’s Republic of China
Shanghai Key Laboratory of Female Reproductive Endocrine Related Diseases, Shanghai, People’s Republic of China

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The dysfunction of NK cells in women with endometriosis (EMS) contributes to the immune escape of menstrual endometrial fragments refluxed into the peritoneal cavity. The reciprocal communications between endometrial stromal cells (ESCs) and lymphocytes facilitate the development of EMS. However, the mechanism of these communications on cytotoxicity of natural killer (NK) cells in endometriotic milieus is still largely unknown. To imitate the local immune microenvironment, the co-culture systems of ESCs from patients with EMS and monocyte-derived macrophages or of ESCs, macrophages and NK cells were constructed. The cytokine levels in the co-culture unit were evaluated by ELISA. The expression of functional molecules in NK cells was detected by flow cytometry (FCM). The NK cell behaviors in vitro were analyzed by cell counting kit-8 and cytotoxic activation assays. After incubation with ESCs and macrophages, the expression of CD16, NKG2D, perforin and IFN-γ, viability and cytotoxicity of NK cells were significantly downregulated. The secretion of interleukin (IL)-1β, IL-10 and transforming growth factor (TGF)-β in the co-culture system of ESCs and macrophages was increased. Exposure with anti-IL-10 receptor β neutralizing antibody (αhIL-10Rβ) or αTGF-β could partly reverse these effects of ESCs and macrophages on NK cells in vitro. These results suggest that the interaction between macrophages and ESCs downregulates cytotoxicity of NK cells possibly by stimulating the secretion of IL-10 and TGF-β, and may further trigger the immune escape of ectopic fragments and promote the occurrence and the development of EMS.

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Jia-Jun Yu Department of Gynecology, Changzhou NO.2 People’s Hospital, affiliated with Nanjing Medical University, Changzhou, Jiangsu Province, People’s Republic of China
Laboratory for Reproductive Immunology, Hospital of Obstetrics and Gynecology, Fudan University, Shanghai, People’s Republic of China

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Hui-Ting Sun Department of Gynecology, Changzhou NO.2 People’s Hospital, affiliated with Nanjing Medical University, Changzhou, Jiangsu Province, People’s Republic of China

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Zhong-Fang Zhang Department of Gynecology, Changzhou NO.2 People’s Hospital, affiliated with Nanjing Medical University, Changzhou, Jiangsu Province, People’s Republic of China

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Ru-Xia Shi Department of Gynecology, Changzhou NO.2 People’s Hospital, affiliated with Nanjing Medical University, Changzhou, Jiangsu Province, People’s Republic of China

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Li-Bing Liu Department of Gynecology, Changzhou NO.2 People’s Hospital, affiliated with Nanjing Medical University, Changzhou, Jiangsu Province, People’s Republic of China

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Wen-Qing Shang Laboratory for Reproductive Immunology, Hospital of Obstetrics and Gynecology, Fudan University, Shanghai, People’s Republic of China

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Chun-Yan Wei Laboratory for Reproductive Immunology, Hospital of Obstetrics and Gynecology, Fudan University, Shanghai, People’s Republic of China

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Kai-Kai Chang Laboratory for Reproductive Immunology, Hospital of Obstetrics and Gynecology, Fudan University, Shanghai, People’s Republic of China

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Jun Shao Laboratory for Reproductive Immunology, Hospital of Obstetrics and Gynecology, Fudan University, Shanghai, People’s Republic of China

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Ming-Yan Wang Laboratory for Reproductive Immunology, Hospital of Obstetrics and Gynecology, Fudan University, Shanghai, People’s Republic of China

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Ming-Qing Li Laboratory for Reproductive Immunology, Hospital of Obstetrics and Gynecology, Fudan University, Shanghai, People’s Republic of China
Key Laboratory of Reproduction Regulation of NPFPC, SIPPR, IRD, Fudan University, Shanghai, People’s Republic of China
Shanghai Key Laboratory of Female Reproductive Endocrine Related Diseases, Shanghai, People’s Republic of China

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Endometriosis (EMS) is associated with an abnormal immune response to endometrial cells, which can facilitate the implantation and proliferation of ectopic endometrial tissues. It has been reported that human endometrial stromal cells (ESCs) express interleukin (IL)15. The aim of our study was to elucidate whether or not IL15 regulates the cross talk between ESCs and natural killer (NK) cells in the endometriotic milieu and, if so, how this regulation occurs. The ESC behaviors in vitro were verified by Cell Counting Kit-8 (CCK-8), Annexin/PI, and Matrigel invasion assays, respectively. To imitate the local immune microenvironment, the co-culture system between ESCs and NK cells was constructed. The effect of IL15 on NK cells in the co-culture unit was investigated by flow cytometry (FCM). In this study, we found that ectopic endometrium from patients with EMS highly expressed IL15. Rapamycin, an autophagy inducer, decreased the level of IL15 receptors (i.e. IL15Rα and IL2Rβ). IL15 inhibits apoptosis and promotes the invasiveness, viability, and proliferation of ESCs. Meanwhile, a co-culture with ESCs led to a decrease in CD16 on NK cells. In the co-culture system, IL15 treatment downregulated the levels of Granzyme B and IFN-γ in CD16+NK cells, NKG2D in CD56dimCD16-NK cells, and NKP44 in CD56brightCD16-NK cells. On the one hand, these results indicated that IL15 derived from ESCs directly stimulates the growth and invasion of ESCs. On the other hand, IL15 may help the immune escape of ESCs by suppressing the cytotoxic activity of NK cells in the ectopic milieu, thereby facilitating the progression of EMS.

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Jun Shao Laboratory for Reproductive Immunology, Hospital of Obstetrics and Gynecology,

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Bing Zhang Laboratory for Reproductive Immunology, Hospital of Obstetrics and Gynecology,

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Jia-Jun Yu Laboratory for Reproductive Immunology, Hospital of Obstetrics and Gynecology,

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Chun-Yan Wei Laboratory for Reproductive Immunology, Hospital of Obstetrics and Gynecology,

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Wen-Jie Zhou Laboratory for Reproductive Immunology, Hospital of Obstetrics and Gynecology,
Key Laboratory of Reproduction Regulation of NPFPC, SIPPR, IRD, Fudan University, Shanghai, People’s Republic of China

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Kai-Kai Chang Laboratory for Reproductive Immunology, Hospital of Obstetrics and Gynecology,
Shanghai Key Laboratory of Female Reproductive Endocrine Related Diseases, Shanghai, People’s Republic of China

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Hui-Li Yang Laboratory for Reproductive Immunology, Hospital of Obstetrics and Gynecology,

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Li-Ping Jin Clinical and Translational Research Center, Shanghai First Maternity and Infant Hospital, Tongji University School of Medicine, Shanghai, People’s Republic of China

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Xiao-Yong Zhu Laboratory for Reproductive Immunology, Hospital of Obstetrics and Gynecology,
Shanghai Key Laboratory of Female Reproductive Endocrine Related Diseases, Shanghai, People’s Republic of China

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Ming-Qing Li Laboratory for Reproductive Immunology, Hospital of Obstetrics and Gynecology,
Key Laboratory of Reproduction Regulation of NPFPC, SIPPR, IRD, Fudan University, Shanghai, People’s Republic of China
Shanghai Key Laboratory of Female Reproductive Endocrine Related Diseases, Shanghai, People’s Republic of China

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Macrophages play an important role in the origin and development of endometriosis. Estrogen promoted the growth of decidual stromal cells (DSCs) by downregulating the level of interleukin (IL)-24. The aim of this study was to clarify the role and mechanism of IL-24 and its receptors in the regulation of biological functions of endometrial stromal cells (ESCs) during endometriosis. The level of IL-24 and its receptors in endometrium was measured by immunohistochemistry. In vitro analysis was used to measure the level of IL-24 and receptors and the biological behaviors of ESCs. Here, we found that the expression of IL-24 and its receptors (IL-20R1 and IL-20R2) in control endometrium was significantly higher than that in eutopic and ectopic endometrium of women with endometriosis. Recombinant human IL-24 (rhIL-24) significantly inhibited the viability of ESCs in a dosage-dependent manner. Conversely, blocking IL-24 with anti-IL-24 neutralizing antibody promoted ESCs viability. In addition, rhIL-24 could downregulate the invasiveness of ESCs in vitro. After co-culture, macrophages markedly reduced the expression of IL-24 and IL-20R1 in ESCs, but not IL-22R1. Moreover, macrophages significantly restricted the inhibitory effect of IL-24 on the viability, invasion, the proliferation relative gene Ki-67, proliferating cell nuclear antigen (PCNA) and cyclooxygenase2 (COX-2), and the stimulatory effect on the tumor metastasis suppressor gene CD82 in ESCs. These results indicate that the abnormally low level of IL-24 in ESCs possibly induced by macrophages may lead to the enhancement of ESCs’ proliferation and invasiveness and contribute to the development of endometriosis.

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Xue-Min Qiu NHC Key Lab of Reproduction Regulation (Shanghai Institute of Planned Parenthood Research), Hospital of Obstetrics and Gynecology, Fudan University, Shanghai, People’s Republic of China
Laboratory for Reproductive Immunology, Institute of Obstetrics and Gynecology, Hospital of Obstetrics and Gynecology, Fudan University, Shanghai, People’s Republic of China

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Zhen-Zhen Lai NHC Key Lab of Reproduction Regulation (Shanghai Institute of Planned Parenthood Research), Hospital of Obstetrics and Gynecology, Fudan University, Shanghai, People’s Republic of China
Laboratory for Reproductive Immunology, Institute of Obstetrics and Gynecology, Hospital of Obstetrics and Gynecology, Fudan University, Shanghai, People’s Republic of China

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Si-Yao Ha NHC Key Lab of Reproduction Regulation (Shanghai Institute of Planned Parenthood Research), Hospital of Obstetrics and Gynecology, Fudan University, Shanghai, People’s Republic of China
Laboratory for Reproductive Immunology, Institute of Obstetrics and Gynecology, Hospital of Obstetrics and Gynecology, Fudan University, Shanghai, People’s Republic of China

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Hui-Li Yang NHC Key Lab of Reproduction Regulation (Shanghai Institute of Planned Parenthood Research), Hospital of Obstetrics and Gynecology, Fudan University, Shanghai, People’s Republic of China
Laboratory for Reproductive Immunology, Institute of Obstetrics and Gynecology, Hospital of Obstetrics and Gynecology, Fudan University, Shanghai, People’s Republic of China

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Li-Bing Liu Department of Gynecology, Changzhou No. 2 People’s Hospital, affiliated with Nanjing Medical University, Changzhou, Jiangsu Province, People’s Republic of China

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Yan Wang Laboratory for Reproductive Immunology, Institute of Obstetrics and Gynecology, Hospital of Obstetrics and Gynecology, Fudan University, Shanghai, People’s Republic of China

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Jia-Wei Shi NHC Key Lab of Reproduction Regulation (Shanghai Institute of Planned Parenthood Research), Hospital of Obstetrics and Gynecology, Fudan University, Shanghai, People’s Republic of China
Laboratory for Reproductive Immunology, Institute of Obstetrics and Gynecology, Hospital of Obstetrics and Gynecology, Fudan University, Shanghai, People’s Republic of China

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Lu-Yu Ruan NHC Key Lab of Reproduction Regulation (Shanghai Institute of Planned Parenthood Research), Hospital of Obstetrics and Gynecology, Fudan University, Shanghai, People’s Republic of China
Laboratory for Reproductive Immunology, Institute of Obstetrics and Gynecology, Hospital of Obstetrics and Gynecology, Fudan University, Shanghai, People’s Republic of China

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Jiang-Feng Ye Clinical Epidemiology, Hospital of Obstetrics and Gynecology, Fudan University, Shanghai, People’s Republic of China

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Jiang-Nan Wu Clinical Epidemiology, Hospital of Obstetrics and Gynecology, Fudan University, Shanghai, People’s Republic of China

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Qiang Fu Department of Immunology, Binzhou Medical College, Yantai, Shandong Province, People’s Republic of China

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Xiao-Fang Yi Department of Gynecology, Hospital of Obstetrics and Gynecology, Fudan University, Shanghai, People’s Republic of China
Shanghai Key Laboratory of Female Reproductive Endocrine Related Diseases, Hospital of Obstetrics and Gynecology, Fudan University, Shanghai, People’s Republic of China

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Kai-Kai Chang Laboratory for Reproductive Immunology, Institute of Obstetrics and Gynecology, Hospital of Obstetrics and Gynecology, Fudan University, Shanghai, People’s Republic of China
Department of Gynecology, Hospital of Obstetrics and Gynecology, Fudan University, Shanghai, People’s Republic of China

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Ming-Qing Li NHC Key Lab of Reproduction Regulation (Shanghai Institute of Planned Parenthood Research), Hospital of Obstetrics and Gynecology, Fudan University, Shanghai, People’s Republic of China
Laboratory for Reproductive Immunology, Institute of Obstetrics and Gynecology, Hospital of Obstetrics and Gynecology, Fudan University, Shanghai, People’s Republic of China
Shanghai Key Laboratory of Female Reproductive Endocrine Related Diseases, Hospital of Obstetrics and Gynecology, Fudan University, Shanghai, People’s Republic of China

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Immune cells and cytokines have important roles in the pathogenesis of endometriosis. However, the production and role of cytokines of T helper type 1 (Th1) and Th2 cells in the progress of endometriosis have remained to be fully elucidated. The present study reported that the interferon (IFN)-γ levels and the percentage of IFN-γ+CD4+ cells were significantly increased in the peritoneal fluid (PF) at the early stage and maintained at a higher level at the advanced stage of endometriosis; furthermore, interleukin (IL)-10 and IL-10+CD4+ cells were elevated in the advanced stage of endometriosis. In addition, IL-2 levels in the PF at the advanced stage of endometriosis were elevated and negatively associated with IFN-γ expression. In a co-culture system of ectopic endometrial stromal cells (ESCs) and macrophages, elevated IL-2 was observed, and treatment with cytokines IL-2 and transforming growth factor-β led to upregulation of the ratio of IL-2+ macrophages. IL-27-overexpressing ESCs and macrophages were able to induce a higher ratio of IL-10+CD4+ T cells. Blocking of IL-2 with anti-IL-2 neutralizing antibody led to upregulation of the ratio of IFN-γ+CD4+ T cells in the co-culture system in vitro. Recombinant human IL-10 and IFN-γ promoted the viability, invasiveness and transcription levels of matrix metalloproteinase (MMP)2, MMP9, and prostaglandin-endoperoxide synthase 2 of ESCs, particularly combined treatment with IL-10 and IFN-γ. These results suggest that IL-2 and IL-27 synergistically promote the growth and invasion of ESCs by modulating the balance of IFN-γ and IL-10 and contribute to the progress of endometriosis.

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Hung-Fu Liao Institute of Biotechnology, Department of Animal Science and Technology, Genome and Systems Biology Degree Program, Genome and Systems Biology Degree Program, Institut Curie, Department of Animal Science and Biotechnology, INSERM U934/CNRS UMR3215, Department of Genetics and Development, Agricultural Biotechnology Research Center, Center for Systems Biology, Research Center for Developmental Biology and Regenerative Medicine, National Taiwan University, Taipei 106, Taiwan

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Chu-Fan Mo Institute of Biotechnology, Department of Animal Science and Technology, Genome and Systems Biology Degree Program, Genome and Systems Biology Degree Program, Institut Curie, Department of Animal Science and Biotechnology, INSERM U934/CNRS UMR3215, Department of Genetics and Development, Agricultural Biotechnology Research Center, Center for Systems Biology, Research Center for Developmental Biology and Regenerative Medicine, National Taiwan University, Taipei 106, Taiwan

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Shinn-Chih Wu Institute of Biotechnology, Department of Animal Science and Technology, Genome and Systems Biology Degree Program, Genome and Systems Biology Degree Program, Institut Curie, Department of Animal Science and Biotechnology, INSERM U934/CNRS UMR3215, Department of Genetics and Development, Agricultural Biotechnology Research Center, Center for Systems Biology, Research Center for Developmental Biology and Regenerative Medicine, National Taiwan University, Taipei 106, Taiwan

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Dai-Han Cheng Institute of Biotechnology, Department of Animal Science and Technology, Genome and Systems Biology Degree Program, Genome and Systems Biology Degree Program, Institut Curie, Department of Animal Science and Biotechnology, INSERM U934/CNRS UMR3215, Department of Genetics and Development, Agricultural Biotechnology Research Center, Center for Systems Biology, Research Center for Developmental Biology and Regenerative Medicine, National Taiwan University, Taipei 106, Taiwan

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Chih-Yun Yu Institute of Biotechnology, Department of Animal Science and Technology, Genome and Systems Biology Degree Program, Genome and Systems Biology Degree Program, Institut Curie, Department of Animal Science and Biotechnology, INSERM U934/CNRS UMR3215, Department of Genetics and Development, Agricultural Biotechnology Research Center, Center for Systems Biology, Research Center for Developmental Biology and Regenerative Medicine, National Taiwan University, Taipei 106, Taiwan

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Kai-Wei Chang Institute of Biotechnology, Department of Animal Science and Technology, Genome and Systems Biology Degree Program, Genome and Systems Biology Degree Program, Institut Curie, Department of Animal Science and Biotechnology, INSERM U934/CNRS UMR3215, Department of Genetics and Development, Agricultural Biotechnology Research Center, Center for Systems Biology, Research Center for Developmental Biology and Regenerative Medicine, National Taiwan University, Taipei 106, Taiwan
Institute of Biotechnology, Department of Animal Science and Technology, Genome and Systems Biology Degree Program, Genome and Systems Biology Degree Program, Institut Curie, Department of Animal Science and Biotechnology, INSERM U934/CNRS UMR3215, Department of Genetics and Development, Agricultural Biotechnology Research Center, Center for Systems Biology, Research Center for Developmental Biology and Regenerative Medicine, National Taiwan University, Taipei 106, Taiwan

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Tzu-Hao Kao Institute of Biotechnology, Department of Animal Science and Technology, Genome and Systems Biology Degree Program, Genome and Systems Biology Degree Program, Institut Curie, Department of Animal Science and Biotechnology, INSERM U934/CNRS UMR3215, Department of Genetics and Development, Agricultural Biotechnology Research Center, Center for Systems Biology, Research Center for Developmental Biology and Regenerative Medicine, National Taiwan University, Taipei 106, Taiwan

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Chia-Wei Lu Institute of Biotechnology, Department of Animal Science and Technology, Genome and Systems Biology Degree Program, Genome and Systems Biology Degree Program, Institut Curie, Department of Animal Science and Biotechnology, INSERM U934/CNRS UMR3215, Department of Genetics and Development, Agricultural Biotechnology Research Center, Center for Systems Biology, Research Center for Developmental Biology and Regenerative Medicine, National Taiwan University, Taipei 106, Taiwan

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Marina Pinskaya Institute of Biotechnology, Department of Animal Science and Technology, Genome and Systems Biology Degree Program, Genome and Systems Biology Degree Program, Institut Curie, Department of Animal Science and Biotechnology, INSERM U934/CNRS UMR3215, Department of Genetics and Development, Agricultural Biotechnology Research Center, Center for Systems Biology, Research Center for Developmental Biology and Regenerative Medicine, National Taiwan University, Taipei 106, Taiwan

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Antonin Morillon Institute of Biotechnology, Department of Animal Science and Technology, Genome and Systems Biology Degree Program, Genome and Systems Biology Degree Program, Institut Curie, Department of Animal Science and Biotechnology, INSERM U934/CNRS UMR3215, Department of Genetics and Development, Agricultural Biotechnology Research Center, Center for Systems Biology, Research Center for Developmental Biology and Regenerative Medicine, National Taiwan University, Taipei 106, Taiwan

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Shih-Shun Lin Institute of Biotechnology, Department of Animal Science and Technology, Genome and Systems Biology Degree Program, Genome and Systems Biology Degree Program, Institut Curie, Department of Animal Science and Biotechnology, INSERM U934/CNRS UMR3215, Department of Genetics and Development, Agricultural Biotechnology Research Center, Center for Systems Biology, Research Center for Developmental Biology and Regenerative Medicine, National Taiwan University, Taipei 106, Taiwan
Institute of Biotechnology, Department of Animal Science and Technology, Genome and Systems Biology Degree Program, Genome and Systems Biology Degree Program, Institut Curie, Department of Animal Science and Biotechnology, INSERM U934/CNRS UMR3215, Department of Genetics and Development, Agricultural Biotechnology Research Center, Center for Systems Biology, Research Center for Developmental Biology and Regenerative Medicine, National Taiwan University, Taipei 106, Taiwan
Institute of Biotechnology, Department of Animal Science and Technology, Genome and Systems Biology Degree Program, Genome and Systems Biology Degree Program, Institut Curie, Department of Animal Science and Biotechnology, INSERM U934/CNRS UMR3215, Department of Genetics and Development, Agricultural Biotechnology Research Center, Center for Systems Biology, Research Center for Developmental Biology and Regenerative Medicine, National Taiwan University, Taipei 106, Taiwan

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Winston T K Cheng Institute of Biotechnology, Department of Animal Science and Technology, Genome and Systems Biology Degree Program, Genome and Systems Biology Degree Program, Institut Curie, Department of Animal Science and Biotechnology, INSERM U934/CNRS UMR3215, Department of Genetics and Development, Agricultural Biotechnology Research Center, Center for Systems Biology, Research Center for Developmental Biology and Regenerative Medicine, National Taiwan University, Taipei 106, Taiwan

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Déborah Bourc'his Institute of Biotechnology, Department of Animal Science and Technology, Genome and Systems Biology Degree Program, Genome and Systems Biology Degree Program, Institut Curie, Department of Animal Science and Biotechnology, INSERM U934/CNRS UMR3215, Department of Genetics and Development, Agricultural Biotechnology Research Center, Center for Systems Biology, Research Center for Developmental Biology and Regenerative Medicine, National Taiwan University, Taipei 106, Taiwan

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Timothy Bestor Institute of Biotechnology, Department of Animal Science and Technology, Genome and Systems Biology Degree Program, Genome and Systems Biology Degree Program, Institut Curie, Department of Animal Science and Biotechnology, INSERM U934/CNRS UMR3215, Department of Genetics and Development, Agricultural Biotechnology Research Center, Center for Systems Biology, Research Center for Developmental Biology and Regenerative Medicine, National Taiwan University, Taipei 106, Taiwan

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Li-Ying Sung Institute of Biotechnology, Department of Animal Science and Technology, Genome and Systems Biology Degree Program, Genome and Systems Biology Degree Program, Institut Curie, Department of Animal Science and Biotechnology, INSERM U934/CNRS UMR3215, Department of Genetics and Development, Agricultural Biotechnology Research Center, Center for Systems Biology, Research Center for Developmental Biology and Regenerative Medicine, National Taiwan University, Taipei 106, Taiwan

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Shau-Ping Lin Institute of Biotechnology, Department of Animal Science and Technology, Genome and Systems Biology Degree Program, Genome and Systems Biology Degree Program, Institut Curie, Department of Animal Science and Biotechnology, INSERM U934/CNRS UMR3215, Department of Genetics and Development, Agricultural Biotechnology Research Center, Center for Systems Biology, Research Center for Developmental Biology and Regenerative Medicine, National Taiwan University, Taipei 106, Taiwan
Institute of Biotechnology, Department of Animal Science and Technology, Genome and Systems Biology Degree Program, Genome and Systems Biology Degree Program, Institut Curie, Department of Animal Science and Biotechnology, INSERM U934/CNRS UMR3215, Department of Genetics and Development, Agricultural Biotechnology Research Center, Center for Systems Biology, Research Center for Developmental Biology and Regenerative Medicine, National Taiwan University, Taipei 106, Taiwan
Institute of Biotechnology, Department of Animal Science and Technology, Genome and Systems Biology Degree Program, Genome and Systems Biology Degree Program, Institut Curie, Department of Animal Science and Biotechnology, INSERM U934/CNRS UMR3215, Department of Genetics and Development, Agricultural Biotechnology Research Center, Center for Systems Biology, Research Center for Developmental Biology and Regenerative Medicine, National Taiwan University, Taipei 106, Taiwan
Institute of Biotechnology, Department of Animal Science and Technology, Genome and Systems Biology Degree Program, Genome and Systems Biology Degree Program, Institut Curie, Department of Animal Science and Biotechnology, INSERM U934/CNRS UMR3215, Department of Genetics and Development, Agricultural Biotechnology Research Center, Center for Systems Biology, Research Center for Developmental Biology and Regenerative Medicine, National Taiwan University, Taipei 106, Taiwan

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Nuclear transfer (NT) is a technique used to investigate the development and reprogramming potential of a single cell. DNA methyltransferase-3-like, which has been characterized as a repressive transcriptional regulator, is expressed in naturally fertilized egg and morula/blastocyst at pre-implantation stages. In this study, we demonstrate that the use of Dnmt3l-knockout (Dnmt3l-KO) donor cells in combination with Trichostatin A treatment improved the developmental efficiency and quality of the cloned embryos. Compared with the WT group, Dnmt3l-KO donor cell-derived cloned embryos exhibited increased cell numbers as well as restricted OCT4 expression in the inner cell mass (ICM) and silencing of transposable elements at the blastocyst stage. In addition, our results indicate that zygotic Dnmt3l is dispensable for cloned embryo development at pre-implantation stages. In Dnmt3l-KO mouse embryonic fibroblasts, we observed reduced nuclear localization of HDAC1, increased levels of the active histone mark H3K27ac and decreased accumulation of the repressive histone marks H3K27me3 and H3K9me3, suggesting that Dnmt3l-KO donor cells may offer a more permissive epigenetic state that is beneficial for NT reprogramming.

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