Zfp281 mediates Nanog autorepression through recruitment of the NuRD complex and inhibits somatic cell reprogramming

Miguel Fidalgo; Francesco Faiola; Carlos Filipe Pereira; Junjun Ding; Arven Saunders; Julian Gingold; Christoph Schaniel; Ihor R. Lemischka; José C.R. Silva; Jianlong Wang

doi:10.1073/pnas.1208533109

Zfp281 mediates Nanog autorepression through recruitment of the NuRD complex and inhibits somatic cell reprogramming

Miguel Fidalgo, Francesco Faiola, Carlos Filipe Pereira, Junjun Ding, Arven Saunders, Julian Gingold, Christoph Schaniel, Ihor R. Lemischka, José C.R. Silva, Jianlong Wang

Research output: Contribution to journal › Article › peer-review

93 Scopus citations

Abstract

The homeodomain transcription factor Nanog plays an important role in embryonic stem cell (ESC) self-renewal and is essential for acquiring ground-state pluripotency during reprogramming. Understanding how Nanog is transcriptionally regulated is important for further dissecting mechanisms of ESC pluripotency and somatic cell reprogramming. Here, we report that Nanog is subjected to a negative autoregulatory mechanism, i.e., autorepression, in ESCs, and that such autorepression requires the coordinated action of the Nanog partner and transcriptional repressor Zfp281. Mechanistically, Zfp281 recruits the NuRD repressor complex onto the Nanog locus and maintains its integrity to mediate Nanog autorepression and, functionally, Zfp281-mediated Nanog autorepression presents a roadblock to efficient somatic cell reprogramming. Our results identify a unique transcriptional regulatory mode of Nanog gene expression and shed light into the mechanistic understanding of Nanog function in pluripotency and reprogramming.

Original language	English
Pages (from-to)	16202-16207
Number of pages	6
Journal	Proceedings of the National Academy of Sciences of the United States of America
Volume	109
Issue number	40
DOIs	https://doi.org/10.1073/pnas.1208533109
State	Published - 2 Oct 2012

Keywords

Nanog autoregulation
iPSC

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10.1073/pnas.1208533109

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Fidalgo, M., Faiola, F., Pereira, C. F., Ding, J., Saunders, A., Gingold, J., Schaniel, C., Lemischka, I. R., Silva, J. C. R., & Wang, J. (2012). Zfp281 mediates Nanog autorepression through recruitment of the NuRD complex and inhibits somatic cell reprogramming. Proceedings of the National Academy of Sciences of the United States of America, 109(40), 16202-16207. https://doi.org/10.1073/pnas.1208533109

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title = "Zfp281 mediates Nanog autorepression through recruitment of the NuRD complex and inhibits somatic cell reprogramming",

abstract = "The homeodomain transcription factor Nanog plays an important role in embryonic stem cell (ESC) self-renewal and is essential for acquiring ground-state pluripotency during reprogramming. Understanding how Nanog is transcriptionally regulated is important for further dissecting mechanisms of ESC pluripotency and somatic cell reprogramming. Here, we report that Nanog is subjected to a negative autoregulatory mechanism, i.e., autorepression, in ESCs, and that such autorepression requires the coordinated action of the Nanog partner and transcriptional repressor Zfp281. Mechanistically, Zfp281 recruits the NuRD repressor complex onto the Nanog locus and maintains its integrity to mediate Nanog autorepression and, functionally, Zfp281-mediated Nanog autorepression presents a roadblock to efficient somatic cell reprogramming. Our results identify a unique transcriptional regulatory mode of Nanog gene expression and shed light into the mechanistic understanding of Nanog function in pluripotency and reprogramming.",

keywords = "Nanog autoregulation, iPSC",

author = "Miguel Fidalgo and Francesco Faiola and Pereira, {Carlos Filipe} and Junjun Ding and Arven Saunders and Julian Gingold and Christoph Schaniel and Lemischka, {Ihor R.} and Silva, {Jos{\'e} C.R.} and Jianlong Wang",

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Fidalgo, M, Faiola, F, Pereira, CF, Ding, J, Saunders, A, Gingold, J, Schaniel, C, Lemischka, IR, Silva, JCR & Wang, J 2012, 'Zfp281 mediates Nanog autorepression through recruitment of the NuRD complex and inhibits somatic cell reprogramming', Proceedings of the National Academy of Sciences of the United States of America, vol. 109, no. 40, pp. 16202-16207. https://doi.org/10.1073/pnas.1208533109

Zfp281 mediates Nanog autorepression through recruitment of the NuRD complex and inhibits somatic cell reprogramming. / Fidalgo, Miguel; Faiola, Francesco; Pereira, Carlos Filipe et al.
In: Proceedings of the National Academy of Sciences of the United States of America, Vol. 109, No. 40, 02.10.2012, p. 16202-16207.

Research output: Contribution to journal › Article › peer-review

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T1 - Zfp281 mediates Nanog autorepression through recruitment of the NuRD complex and inhibits somatic cell reprogramming

AU - Fidalgo, Miguel

AU - Faiola, Francesco

AU - Pereira, Carlos Filipe

AU - Ding, Junjun

AU - Saunders, Arven

AU - Gingold, Julian

AU - Schaniel, Christoph

AU - Lemischka, Ihor R.

AU - Silva, José C.R.

AU - Wang, Jianlong

PY - 2012/10/2

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AB - The homeodomain transcription factor Nanog plays an important role in embryonic stem cell (ESC) self-renewal and is essential for acquiring ground-state pluripotency during reprogramming. Understanding how Nanog is transcriptionally regulated is important for further dissecting mechanisms of ESC pluripotency and somatic cell reprogramming. Here, we report that Nanog is subjected to a negative autoregulatory mechanism, i.e., autorepression, in ESCs, and that such autorepression requires the coordinated action of the Nanog partner and transcriptional repressor Zfp281. Mechanistically, Zfp281 recruits the NuRD repressor complex onto the Nanog locus and maintains its integrity to mediate Nanog autorepression and, functionally, Zfp281-mediated Nanog autorepression presents a roadblock to efficient somatic cell reprogramming. Our results identify a unique transcriptional regulatory mode of Nanog gene expression and shed light into the mechanistic understanding of Nanog function in pluripotency and reprogramming.

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Zfp281 mediates Nanog autorepression through recruitment of the NuRD complex and inhibits somatic cell reprogramming

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Keywords

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