A novel approach to differentiate rat embryonic stem cells in vitro reveals a role for RNF12 in activation of X chromosome inactivation

Aristea  Magaraki; Agnese  Loda; Cristina  Gontan; Sarra  Merzouk; Esther  Sleddens-Linkels; Stephen Meek; Willy M.  Baarends; Thomas Burdon; Joost  Gribnau

doi:10.1038/s41598-019-42246-2

A novel approach to differentiate rat embryonic stem cells in vitro reveals a role for RNF12 in activation of X chromosome inactivation

Aristea Magaraki, Agnese Loda, Cristina Gontan, Sarra Merzouk, Esther Sleddens-Linkels, Stephen Meek, Willy M. Baarends, Thomas Burdon, Joost Gribnau

Royal (Dick) School of Veterinary Studies

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

Abstract

X chromosome inactivation (XCI) is a eutherian specific, developmentally regulated process relying on several mechanisms including antisense transcription, non-coding RNA-mediated silencing, and recruitment of chromatin remodeling complexes. In vitro modeling of XCI, through differentiation of embryonic stem cells (ESCs), provides a powerful tool to study the dynamics of XCI, overcoming the need for embryos, and facilitating genetic modification of key regulatory players. However, to date, robust initiation of XCI in vitro has been mostly limited to mouse pluripotent stem cells. Here, we adapted eXisting protocols to establish a novel monolayer differentiation protocol for rat ESCs to study XCI. We show that differentiating rat ESCs properly downregulate pluripotency factor genes, and present female specific Xist RNA accumulation and silencing of X-linked genes. We also demonstrate that
RNF12 seems to be an important player in regulation of initiation of XCI in rat, acting as an Xist activator. Our work provides the basis to investigate the mechanisms directing the XCI process in a model organism different from the mouse.

Original language	English
Journal	Scientific Reports
Early online date	15 Apr 2019
DOIs	https://doi.org/10.1038/s41598-019-42246-2
Publication status	E-pub ahead of print - 15 Apr 2019

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A novel approach to differentiate rat embryonic stem cells ...
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Tom Burdon
- tom.burdonroslin.ed.acuk
- Royal (Dick) School of Veterinary Studies - Group Leader/Senior Research Fellow
Person: Academic: Research Active

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title = "A novel approach to differentiate rat embryonic stem cells in vitro reveals a role for RNF12 in activation of X chromosome inactivation",

abstract = "X chromosome inactivation (XCI) is a eutherian specific, developmentally regulated process relying on several mechanisms including antisense transcription, non-coding RNA-mediated silencing, and recruitment of chromatin remodeling complexes. In vitro modeling of XCI, through differentiation of embryonic stem cells (ESCs), provides a powerful tool to study the dynamics of XCI, overcoming the need for embryos, and facilitating genetic modification of key regulatory players. However, to date, robust initiation of XCI in vitro has been mostly limited to mouse pluripotent stem cells. Here, we adapted eXisting protocols to establish a novel monolayer differentiation protocol for rat ESCs to study XCI. We show that differentiating rat ESCs properly downregulate pluripotency factor genes, and present female specific Xist RNA accumulation and silencing of X-linked genes. We also demonstrate thatRNF12 seems to be an important player in regulation of initiation of XCI in rat, acting as an Xist activator. Our work provides the basis to investigate the mechanisms directing the XCI process in a model organism different from the mouse.",

author = "Aristea Magaraki and Agnese Loda and Cristina Gontan and Sarra Merzouk and Esther Sleddens-Linkels and Stephen Meek and Baarends, {Willy M.} and Thomas Burdon and Joost Gribnau",

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AU - Magaraki, Aristea

AU - Loda, Agnese

AU - Gontan, Cristina

AU - Merzouk, Sarra

AU - Sleddens-Linkels, Esther

AU - Meek, Stephen

AU - Baarends, Willy M.

AU - Burdon, Thomas

AU - Gribnau, Joost

PY - 2019/4/15

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AB - X chromosome inactivation (XCI) is a eutherian specific, developmentally regulated process relying on several mechanisms including antisense transcription, non-coding RNA-mediated silencing, and recruitment of chromatin remodeling complexes. In vitro modeling of XCI, through differentiation of embryonic stem cells (ESCs), provides a powerful tool to study the dynamics of XCI, overcoming the need for embryos, and facilitating genetic modification of key regulatory players. However, to date, robust initiation of XCI in vitro has been mostly limited to mouse pluripotent stem cells. Here, we adapted eXisting protocols to establish a novel monolayer differentiation protocol for rat ESCs to study XCI. We show that differentiating rat ESCs properly downregulate pluripotency factor genes, and present female specific Xist RNA accumulation and silencing of X-linked genes. We also demonstrate thatRNF12 seems to be an important player in regulation of initiation of XCI in rat, acting as an Xist activator. Our work provides the basis to investigate the mechanisms directing the XCI process in a model organism different from the mouse.

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A novel approach to differentiate rat embryonic stem cells in vitro reveals a role for RNF12 in activation of X chromosome inactivation

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