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Selective influence of Sox2 on POU transcription factor binding in embryonic and neural stem cells 下载免费PDF全文
Tapan Kumar Mistri Arun George Devasia Lee Thean Chu Wei Ping Ng Florian Halbritter Douglas Colby Ben Martynoga Simon R Tomlinson Ian Chambers Paul Robson Thorsten Wohland 《EMBO reports》2015,16(9):1177-1191
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Inducing pluripotency in vitro: recent advances and highlights in induced pluripotent stem cells generation and pluripotency reprogramming 下载免费PDF全文
I. K. Rony A. Baten J. A Bloomfield M. E. Islam M. M. Billah K. D. Islam 《Cell proliferation》2015,48(2):140-156
Induced pluripotent stem cells (iPSCs) are considered patient‐specific counterparts of embryonic stem cells as they originate from somatic cells after forced expression of pluripotency reprogramming factors Oct4, Sox2, Klf4 and c‐Myc. iPSCs offer unprecedented opportunity for personalized cell therapies in regenerative medicine. In recent years, iPSC technology has undergone substantial improvement to overcome slow and inefficient reprogramming protocols, and to ensure clinical‐grade iPSCs and their functional derivatives. Recent developments in iPSC technology include better reprogramming methods employing novel delivery systems such as non‐integrating viral and non‐viral vectors, and characterization of alternative reprogramming factors. Concurrently, small chemical molecules (inhibitors of specific signalling or epigenetic regulators) have become crucial to iPSC reprogramming; they have the ability to replace putative reprogramming factors and boost reprogramming processes. Moreover, common dietary supplements, such as vitamin C and antioxidants, when introduced into reprogramming media, have been found to improve genomic and epigenomic profiles of iPSCs. In this article, we review the most recent advances in the iPSC field and potent application of iPSCs, in terms of cell therapy and tissue engineering. 相似文献
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Daisylyn Senna Tan Yanpu Chen Ya Gao Anastasia Bednarz Yuanjie Wei Vikas Malik Derek Hoi-Hang Ho Mingxi Weng Sik Yin Ho Yogesh Srivastava Sergiy Velychko Xiaoxiao Yang Ligang Fan Johnny Kim Johannes Graumann Gary D. Stormo Thomas Braun Jian Yan Hans R. Schler Ralf Jauch 《Molecular biology and evolution》2021,38(7):2854
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Jaecheol Lee Youngkyun Kim Hyoju Yi Sebastian Diecke Juryun Kim Hyerin Jung Yeri Alice Rim Seung Min Jung Myungshin Kim Yong Goo Kim Sung-Hwan Park Ho-Youn Kim Ji Hyeon Ju 《Arthritis research & therapy》2014,16(1):R41
Introduction
Since the concept of reprogramming mature somatic cells to generate induced pluripotent stem cells (iPSCs) was demonstrated in 2006, iPSCs have become a potential substitute for embryonic stem cells (ESCs) given their pluripotency and “stemness” characteristics, which resemble those of ESCs. We investigated to reprogram fibroblast-like synoviocytes (FLSs) from patients with rheumatoid arthritis (RA) and osteoarthritis (OA) to generate iPSCs using a 4-in-1 lentiviral vector system.Methods
A 4-in-1 lentiviral vector containing Oct4, Sox2, Klf4, and c-Myc was transduced into RA and OA FLSs isolated from the synovia of two RA patients and two OA patients. Immunohistochemical staining and real-time PCR studies were performed to demonstrate the pluripotency of iPSCs. Chromosomal abnormalities were determined based on the karyotype. SCID-beige mice were injected with iPSCs and sacrificed to test for teratoma formation.Results
After 14 days of transduction using the 4-in-1 lentiviral vector, RA FLSs and OA FLSs were transformed into spherical shapes that resembled embryonic stem cell colonies. Colonies were picked and cultivated on matrigel plates to produce iPSC lines. Real-time PCR of RA and OA iPSCs detected positive markers of pluripotency. Immunohistochemical staining tests with Nanog, Oct4, Sox2, Tra-1-80, Tra-1-60, and SSEA-4 were also positive. Teratomas that comprised three compartments of ectoderm, mesoderm, and endoderm were formed at the injection sites of iPSCs. Established iPSCs were shown to be compatible by karyotyping. Finally, we confirmed that the patient-derived iPSCs were able to differentiate into osteoblast, which was shown by an osteoimage mineralization assay.Conclusion
FLSs derived from RA and OA could be cell resources for iPSC reprogramming. Disease- and patient-specific iPSCs have the potential to be applied in clinical settings as source materials for molecular diagnosis and regenerative therapy. 相似文献10.
Peilin Zhang Wen-Hsuan Chang Brendan Fong Fan Gao Chunming Liu Denise Al Alam Saverio Bellusci Wange Lu 《The Journal of biological chemistry》2014,289(13):9221-9232
Wnt signaling has been implicated in promoting somatic cell reprogramming. However, its molecular mechanisms remain unknown. Here we report that Wnt/β-catenin enhances iPSCs induction at the early stage of reprogramming. The augmented reprogramming induced by β-catenin is not due to increased total cell population or activation of c-Myc. In addition, β-catenin interacts with reprogramming factors Klf4, Oct4, and Sox2, further enhancing expression of pluripotency circuitry genes. These studies reveal novel mechanisms underlying the regulation of reprogramming somatic cells to pluripotency by Wnt/β-catenin signaling. 相似文献
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Claudia Merkl Anja Saalfrank Nathalie Riesen Ralf Kühn Anna Pertek Stefan Eser Markus Sebastian Hardt Alexander Kind Dieter Saur Wolfgang Wurst Antonio Iglesias Angelika Schnieke 《PloS one》2013,8(1)
Current methods of generating rat induced pluripotent stem cells are based on viral transduction of pluripotency inducing genes (Oct4, Sox2, c-myc and Klf4) into somatic cells. These activate endogenous pluripotency genes and reprogram the identity of the cell to an undifferentiated state. Epigenetic silencing of exogenous genes has to occur to allow normal iPS cell differentiation. To gain more control over the expression of exogenous reprogramming factors, we used a novel doxycycline-inducible plasmid vector encoding Oct4, Sox2, c-Myc and Klf4. To ensure efficient and controlled generation of iPS cells by plasmid transfection we equipped the reprogramming vector with a bacteriophage φC31 attB site and used a φC31 integrase expression vector to enhance vector integration. A series of doxycycline-independent rat iPS cell lines were established. These were characterized by immunocytochemical detection of Oct4, SSEA1 and SSEA4, alkaline phosphatase staining, methylation analysis of the endogenous Oct4 promoter and RT-PCR analysis of endogenous rat pluripotency genes. We also determined the number of vector integrations and the extent to which reprogramming factor gene expression was controlled. Protocols were developed to generate embryoid bodies and rat iPS cells demonstrated as pluripotent by generating derivatives of all three embryonic germ layers in vitro, and teratoma formation in vivo. All data suggest that our rat iPS cells, generated by plasmid based reprogramming, are similar to rat ES cells. Methods of DNA transfection, protein transduction and feeder-free monolayer culture of rat iPS cells were established to enable future applications. 相似文献
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Yawei Gao Jiayu Chen Ke Li Tong Wu Bo Huang Wenqiang Liu Xiaochen Kou Yu Zhang Hua Huang Yonghua Jiang Chao Yao Xiaolei Liu Zhiwei Lu Zijian Xu Lan Kang Jun Chen Hailin Wang Tao Cai Shaorong Gao 《Cell Stem Cell》2013,12(4):453-469
Highlights? Tet1 facilitates iPSC induction by promoting Oct4 demethylation and reactivation ? Tet1 can replace Oct4 to generate fully pluripotent TSKM iPSCs ? Both 5mC and 5hmC increase on the genome during TSKM 2° reprogramming ? 5hmC promotes the demethylation of pluripotency genes during reprogramming 相似文献