Identification of the Coiled-Coil Domain as an Essential Mbd3 Element for Preserving Lineage Commitment Potential of Embryonic Stem Cells

Embryonic stem cells (ESCs) exhibit two salient features beneficial for regenerative medicine: unlimited self-renewal and pluripotency. Methyl-CpG-binding domain protein 3 (Mbd3), a scaffolding component of the nucleosome remodeling deacetylase complex, is a specific regulator of pluripotency, as ES...

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Published in:Stem cells (Dayton, Ohio) Ohio), 2018-05
Main Authors: Hirasaki, Masataka, Ueda, Atsushi, Asaka, Masamitsu N, Uranishi, Kousuke, Suzuki, Ayumu, Kohda, Masakazu, Mizuno, Yosuke, Okazaki, Yasushi, Nishimoto, Masazumi, Sharif, Jafar, Koseki, Haruhiko, Okuda, Akihiko
Format: Article
Language:English
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Summary:Embryonic stem cells (ESCs) exhibit two salient features beneficial for regenerative medicine: unlimited self-renewal and pluripotency. Methyl-CpG-binding domain protein 3 (Mbd3), a scaffolding component of the nucleosome remodeling deacetylase complex, is a specific regulator of pluripotency, as ESCs lacking Mbd3 are defective for lineage commitment potential but retain normal self-renewal properties. However, functional similarities and dissimilarities among the three Mbd3 isoforms (a, b, and c) have not been intensively explored. Herein, we demonstrated that Mbd3c, which lacks an entire portion of the MBD domain, exerted equivalent activity for counteracting the defective lineage commitment potential of Mbd3-knockout ESCs. Our analyses also revealed that the coiled-coil domain common to all three MBD3 isoforms, but not the MBD domain, plays a crucial role in this activity. Mechanistically, our data demonstrate that the activity of the coiled-coil domain is exerted, at least in part, through recruitment of polycomb repressive complex 2 to a subset of genes linked to development and organogenesis, thus establishing stable transcriptional repression. This article is protected by copyright. All rights reserved.
ISSN:1549-4918