A novel network integrating a miRNA-203/SNAI1 feedback loop which regulates epithelial to mesenchymal transition.

A novel network integrating a miRNA-203/SNAI1 feedback loop which regulates epithelial to mesenchymal transition.

The majority of human cancer deaths are caused by metastasis. The metastatic dissemination is initiated by the breakdown of epithelial cell homeostasis. During this phenomenon, referred to as epithelial to mesenchymal transition (EMT), cells change their genetic and trancriptomic program leading to...

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Main Authors: Michèle Moes, Antony Le Béchec, Isaac Crespo, Christina Laurini, Aliaksandr Halavatyi, Guillaume Vetter, Antonio Del Sol, Evelyne Friederich
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2012-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC3325969?pdf=render
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spelling doaj-44e0701fc4054b05b5875525067eeead2020-11-25T01:34:34ZengPublic Library of Science (PLoS)PLoS ONE1932-62032012-01-0174e3544010.1371/journal.pone.0035440A novel network integrating a miRNA-203/SNAI1 feedback loop which regulates epithelial to mesenchymal transition.Michèle MoesAntony Le BéchecIsaac CrespoIsaac CrespoChristina LauriniAliaksandr HalavatyiGuillaume VetterAntonio Del SolEvelyne FriederichThe majority of human cancer deaths are caused by metastasis. The metastatic dissemination is initiated by the breakdown of epithelial cell homeostasis. During this phenomenon, referred to as epithelial to mesenchymal transition (EMT), cells change their genetic and trancriptomic program leading to phenotypic and functional alterations. The challenge of understanding this dynamic process resides in unraveling regulatory networks involving master transcription factors (e.g. SNAI1/2, ZEB1/2 and TWIST1) and microRNAs. Here we investigated microRNAs regulated by SNAI1 and their potential role in the regulatory networks underlying epithelial plasticity.By a large-scale analysis on epithelial plasticity, we highlighted miR-203 and its molecular link with SNAI1 and the miR-200 family, key regulators of epithelial homeostasis. During SNAI1-induced EMT in MCF7 breast cancer cells, miR-203 and miR-200 family members were repressed in a timely correlated manner. Importantly, miR-203 repressed endogenous SNAI1, forming a double negative miR203/SNAI1 feedback loop. We integrated this novel miR203/SNAI1 with the known miR200/ZEB feedback loops to construct an a priori EMT core network. Dynamic simulations revealed stable epithelial and mesenchymal states, and underscored the crucial role of the miR203/SNAI1 feedback loop in state transitions underlying epithelial plasticity.By combining computational biology and experimental approaches, we propose a novel EMT core network integrating two fundamental negative feedback loops, miR203/SNAI1 and miR200/ZEB. Altogether our analysis implies that this novel EMT core network could function as a switch controlling epithelial cell plasticity during differentiation and cancer progression.http://europepmc.org/articles/PMC3325969?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Michèle Moes
Antony Le Béchec
Isaac Crespo
Isaac Crespo
Christina Laurini
Aliaksandr Halavatyi
Guillaume Vetter
Antonio Del Sol
Evelyne Friederich
spellingShingle Michèle Moes
Antony Le Béchec
Isaac Crespo
Isaac Crespo
Christina Laurini
Aliaksandr Halavatyi
Guillaume Vetter
Antonio Del Sol
Evelyne Friederich
A novel network integrating a miRNA-203/SNAI1 feedback loop which regulates epithelial to mesenchymal transition.
PLoS ONE
author_facet Michèle Moes
Antony Le Béchec
Isaac Crespo
Isaac Crespo
Christina Laurini
Aliaksandr Halavatyi
Guillaume Vetter
Antonio Del Sol
Evelyne Friederich
author_sort Michèle Moes
title A novel network integrating a miRNA-203/SNAI1 feedback loop which regulates epithelial to mesenchymal transition.
title_short A novel network integrating a miRNA-203/SNAI1 feedback loop which regulates epithelial to mesenchymal transition.
title_full A novel network integrating a miRNA-203/SNAI1 feedback loop which regulates epithelial to mesenchymal transition.
title_fullStr A novel network integrating a miRNA-203/SNAI1 feedback loop which regulates epithelial to mesenchymal transition.
title_full_unstemmed A novel network integrating a miRNA-203/SNAI1 feedback loop which regulates epithelial to mesenchymal transition.
title_sort novel network integrating a mirna-203/snai1 feedback loop which regulates epithelial to mesenchymal transition.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2012-01-01
description The majority of human cancer deaths are caused by metastasis. The metastatic dissemination is initiated by the breakdown of epithelial cell homeostasis. During this phenomenon, referred to as epithelial to mesenchymal transition (EMT), cells change their genetic and trancriptomic program leading to phenotypic and functional alterations. The challenge of understanding this dynamic process resides in unraveling regulatory networks involving master transcription factors (e.g. SNAI1/2, ZEB1/2 and TWIST1) and microRNAs. Here we investigated microRNAs regulated by SNAI1 and their potential role in the regulatory networks underlying epithelial plasticity.By a large-scale analysis on epithelial plasticity, we highlighted miR-203 and its molecular link with SNAI1 and the miR-200 family, key regulators of epithelial homeostasis. During SNAI1-induced EMT in MCF7 breast cancer cells, miR-203 and miR-200 family members were repressed in a timely correlated manner. Importantly, miR-203 repressed endogenous SNAI1, forming a double negative miR203/SNAI1 feedback loop. We integrated this novel miR203/SNAI1 with the known miR200/ZEB feedback loops to construct an a priori EMT core network. Dynamic simulations revealed stable epithelial and mesenchymal states, and underscored the crucial role of the miR203/SNAI1 feedback loop in state transitions underlying epithelial plasticity.By combining computational biology and experimental approaches, we propose a novel EMT core network integrating two fundamental negative feedback loops, miR203/SNAI1 and miR200/ZEB. Altogether our analysis implies that this novel EMT core network could function as a switch controlling epithelial cell plasticity during differentiation and cancer progression.
url http://europepmc.org/articles/PMC3325969?pdf=render
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