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Maintenance of Self-Renewal and Pluripotency in J1 Mouse Embryonic Stem Cells through Regulating Transcription Factor and MicroRNA Expression Induced by PD0325901

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Zeitschriftentitel: Stem Cells International
Personen und Körperschaften: Ai, Zhiying, Shao, Jingjing, Shi, Xinglong, Yu, Mengying, Wu, Yongyan, Du, Juan, Zhang, Yong, Guo, Zekun
In: Stem Cells International, 2016, 2016, S. 1-12
Format: E-Article
Sprache: Englisch
veröffentlicht:
Hindawi Limited
Schlagwörter:
Cell Biology
Molecular Biology
author_facet Ai, Zhiying
Shao, Jingjing
Shi, Xinglong
Yu, Mengying
Wu, Yongyan
Du, Juan
Zhang, Yong
Guo, Zekun
Ai, Zhiying
Shao, Jingjing
Shi, Xinglong
Yu, Mengying
Wu, Yongyan
Du, Juan
Zhang, Yong
Guo, Zekun
author Ai, Zhiying
Shao, Jingjing
Shi, Xinglong
Yu, Mengying
Wu, Yongyan
Du, Juan
Zhang, Yong
Guo, Zekun
spellingShingle Ai, Zhiying
Shao, Jingjing
Shi, Xinglong
Yu, Mengying
Wu, Yongyan
Du, Juan
Zhang, Yong
Guo, Zekun
Stem Cells International
Maintenance of Self-Renewal and Pluripotency in J1 Mouse Embryonic Stem Cells through Regulating Transcription Factor and MicroRNA Expression Induced by PD0325901
Cell Biology
Molecular Biology
author_sort ai, zhiying
spelling Ai, Zhiying Shao, Jingjing Shi, Xinglong Yu, Mengying Wu, Yongyan Du, Juan Zhang, Yong Guo, Zekun 1687-966X 1687-9678 Hindawi Limited Cell Biology Molecular Biology http://dx.doi.org/10.1155/2016/1792573 <jats:p>Embryonic stem cells (ESCs) have the ability to grow indefinitely and retain their pluripotency in culture, and this self-renewal capacity is governed by several crucial molecular pathways controlled by specific regulatory genes and epigenetic modifications. It is reported that multiple epigenetic regulators, such as miRNA and pluripotency factors, can be tightly integrated into molecular pathways and cooperate to maintain self-renewal of ESCs. However, mouse ESCs in serum-containing medium seem to be heterogeneous due to the self-activating differentiation signal of MEK/ERK. Thus, to seek for the crucial miRNA and key regulatory genes that establish ESC properties in MEK/ERK pathway, we performed microarray analysis and small RNA deep-sequencing of J1 mESCs treated with or without PD0325901 (PD), a well-known inhibitor of MEK/ERK signal pathway, followed by verification of western blot analysis and quantitative real-time PCR verification; we found that PD regulated the transcript expressions related to self-renewal and differentiation and antagonized the action of retinoic acid- (RA-) induced differentiation. Moreover, PD can significantly modulate the expressions of multiple miRNAs that have crucial functions in ESC development. Overall, our results demonstrate that PD could enhance ESC self-renewal capacity both by key regulatory genes and ES cell-specific miRNA, which in turn influences ESC self-renewal and cellular differentiation.</jats:p> Maintenance of Self-Renewal and Pluripotency in J1 Mouse Embryonic Stem Cells through Regulating Transcription Factor and MicroRNA Expression Induced by PD0325901 Stem Cells International
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title Maintenance of Self-Renewal and Pluripotency in J1 Mouse Embryonic Stem Cells through Regulating Transcription Factor and MicroRNA Expression Induced by PD0325901
title_unstemmed Maintenance of Self-Renewal and Pluripotency in J1 Mouse Embryonic Stem Cells through Regulating Transcription Factor and MicroRNA Expression Induced by PD0325901
title_full Maintenance of Self-Renewal and Pluripotency in J1 Mouse Embryonic Stem Cells through Regulating Transcription Factor and MicroRNA Expression Induced by PD0325901
title_fullStr Maintenance of Self-Renewal and Pluripotency in J1 Mouse Embryonic Stem Cells through Regulating Transcription Factor and MicroRNA Expression Induced by PD0325901
title_full_unstemmed Maintenance of Self-Renewal and Pluripotency in J1 Mouse Embryonic Stem Cells through Regulating Transcription Factor and MicroRNA Expression Induced by PD0325901
title_short Maintenance of Self-Renewal and Pluripotency in J1 Mouse Embryonic Stem Cells through Regulating Transcription Factor and MicroRNA Expression Induced by PD0325901
title_sort maintenance of self-renewal and pluripotency in j1 mouse embryonic stem cells through regulating transcription factor and microrna expression induced by pd0325901
topic Cell Biology
Molecular Biology
url http://dx.doi.org/10.1155/2016/1792573
publishDate 2016
physical 1-12
description <jats:p>Embryonic stem cells (ESCs) have the ability to grow indefinitely and retain their pluripotency in culture, and this self-renewal capacity is governed by several crucial molecular pathways controlled by specific regulatory genes and epigenetic modifications. It is reported that multiple epigenetic regulators, such as miRNA and pluripotency factors, can be tightly integrated into molecular pathways and cooperate to maintain self-renewal of ESCs. However, mouse ESCs in serum-containing medium seem to be heterogeneous due to the self-activating differentiation signal of MEK/ERK. Thus, to seek for the crucial miRNA and key regulatory genes that establish ESC properties in MEK/ERK pathway, we performed microarray analysis and small RNA deep-sequencing of J1 mESCs treated with or without PD0325901 (PD), a well-known inhibitor of MEK/ERK signal pathway, followed by verification of western blot analysis and quantitative real-time PCR verification; we found that PD regulated the transcript expressions related to self-renewal and differentiation and antagonized the action of retinoic acid- (RA-) induced differentiation. Moreover, PD can significantly modulate the expressions of multiple miRNAs that have crucial functions in ESC development. Overall, our results demonstrate that PD could enhance ESC self-renewal capacity both by key regulatory genes and ES cell-specific miRNA, which in turn influences ESC self-renewal and cellular differentiation.</jats:p>
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author Ai, Zhiying, Shao, Jingjing, Shi, Xinglong, Yu, Mengying, Wu, Yongyan, Du, Juan, Zhang, Yong, Guo, Zekun
author_facet Ai, Zhiying, Shao, Jingjing, Shi, Xinglong, Yu, Mengying, Wu, Yongyan, Du, Juan, Zhang, Yong, Guo, Zekun, Ai, Zhiying, Shao, Jingjing, Shi, Xinglong, Yu, Mengying, Wu, Yongyan, Du, Juan, Zhang, Yong, Guo, Zekun
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description <jats:p>Embryonic stem cells (ESCs) have the ability to grow indefinitely and retain their pluripotency in culture, and this self-renewal capacity is governed by several crucial molecular pathways controlled by specific regulatory genes and epigenetic modifications. It is reported that multiple epigenetic regulators, such as miRNA and pluripotency factors, can be tightly integrated into molecular pathways and cooperate to maintain self-renewal of ESCs. However, mouse ESCs in serum-containing medium seem to be heterogeneous due to the self-activating differentiation signal of MEK/ERK. Thus, to seek for the crucial miRNA and key regulatory genes that establish ESC properties in MEK/ERK pathway, we performed microarray analysis and small RNA deep-sequencing of J1 mESCs treated with or without PD0325901 (PD), a well-known inhibitor of MEK/ERK signal pathway, followed by verification of western blot analysis and quantitative real-time PCR verification; we found that PD regulated the transcript expressions related to self-renewal and differentiation and antagonized the action of retinoic acid- (RA-) induced differentiation. Moreover, PD can significantly modulate the expressions of multiple miRNAs that have crucial functions in ESC development. Overall, our results demonstrate that PD could enhance ESC self-renewal capacity both by key regulatory genes and ES cell-specific miRNA, which in turn influences ESC self-renewal and cellular differentiation.</jats:p>
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spelling Ai, Zhiying Shao, Jingjing Shi, Xinglong Yu, Mengying Wu, Yongyan Du, Juan Zhang, Yong Guo, Zekun 1687-966X 1687-9678 Hindawi Limited Cell Biology Molecular Biology http://dx.doi.org/10.1155/2016/1792573 <jats:p>Embryonic stem cells (ESCs) have the ability to grow indefinitely and retain their pluripotency in culture, and this self-renewal capacity is governed by several crucial molecular pathways controlled by specific regulatory genes and epigenetic modifications. It is reported that multiple epigenetic regulators, such as miRNA and pluripotency factors, can be tightly integrated into molecular pathways and cooperate to maintain self-renewal of ESCs. However, mouse ESCs in serum-containing medium seem to be heterogeneous due to the self-activating differentiation signal of MEK/ERK. Thus, to seek for the crucial miRNA and key regulatory genes that establish ESC properties in MEK/ERK pathway, we performed microarray analysis and small RNA deep-sequencing of J1 mESCs treated with or without PD0325901 (PD), a well-known inhibitor of MEK/ERK signal pathway, followed by verification of western blot analysis and quantitative real-time PCR verification; we found that PD regulated the transcript expressions related to self-renewal and differentiation and antagonized the action of retinoic acid- (RA-) induced differentiation. Moreover, PD can significantly modulate the expressions of multiple miRNAs that have crucial functions in ESC development. Overall, our results demonstrate that PD could enhance ESC self-renewal capacity both by key regulatory genes and ES cell-specific miRNA, which in turn influences ESC self-renewal and cellular differentiation.</jats:p> Maintenance of Self-Renewal and Pluripotency in J1 Mouse Embryonic Stem Cells through Regulating Transcription Factor and MicroRNA Expression Induced by PD0325901 Stem Cells International
spellingShingle Ai, Zhiying, Shao, Jingjing, Shi, Xinglong, Yu, Mengying, Wu, Yongyan, Du, Juan, Zhang, Yong, Guo, Zekun, Stem Cells International, Maintenance of Self-Renewal and Pluripotency in J1 Mouse Embryonic Stem Cells through Regulating Transcription Factor and MicroRNA Expression Induced by PD0325901, Cell Biology, Molecular Biology
title Maintenance of Self-Renewal and Pluripotency in J1 Mouse Embryonic Stem Cells through Regulating Transcription Factor and MicroRNA Expression Induced by PD0325901
title_full Maintenance of Self-Renewal and Pluripotency in J1 Mouse Embryonic Stem Cells through Regulating Transcription Factor and MicroRNA Expression Induced by PD0325901
title_fullStr Maintenance of Self-Renewal and Pluripotency in J1 Mouse Embryonic Stem Cells through Regulating Transcription Factor and MicroRNA Expression Induced by PD0325901
title_full_unstemmed Maintenance of Self-Renewal and Pluripotency in J1 Mouse Embryonic Stem Cells through Regulating Transcription Factor and MicroRNA Expression Induced by PD0325901
title_short Maintenance of Self-Renewal and Pluripotency in J1 Mouse Embryonic Stem Cells through Regulating Transcription Factor and MicroRNA Expression Induced by PD0325901
title_sort maintenance of self-renewal and pluripotency in j1 mouse embryonic stem cells through regulating transcription factor and microrna expression induced by pd0325901
title_unstemmed Maintenance of Self-Renewal and Pluripotency in J1 Mouse Embryonic Stem Cells through Regulating Transcription Factor and MicroRNA Expression Induced by PD0325901
topic Cell Biology, Molecular Biology
url http://dx.doi.org/10.1155/2016/1792573