Translational control of breast cancer plasticity

Translational control of breast cancer plasticity

Protein synthesis suppression protects breast cancer cells from clinically relevant stresses like hypoxia. Here, the authors show that unique mRNA isoforms that govern stem cell-like phenotypes escape translational repression to drive tumor progression and chemoresistance.

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Autores principales: Michael Jewer, Laura Lee, Matthew Leibovitch, Guihua Zhang, Jiahui Liu, Scott D. Findlay, Krista M. Vincent, Kristofferson Tandoc, Dylan Dieters-Castator, Daniela F. Quail, Indrani Dutta, Mackenzie Coatham, Zhihua Xu, Aakshi Puri, Bo-Jhih Guan, Maria Hatzoglou, Andrea Brumwell, James Uniacke, Christos Patsis, Antonis Koromilas, Julia Schueler, Gabrielle M. Siegers, Ivan Topisirovic, Lynne-Marie Postovit
Formato: article
Lenguaje:EN
Publicado: Nature Portfolio 2020
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Q
Acceso en línea:https://doaj.org/article/312a98522c974e78ae7065a78eaa0f90
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spelling oai:doaj.org-article:312a98522c974e78ae7065a78eaa0f902021-12-02T15:52:45ZTranslational control of breast cancer plasticity10.1038/s41467-020-16352-z2041-1723https://doaj.org/article/312a98522c974e78ae7065a78eaa0f902020-05-01T00:00:00Zhttps://doi.org/10.1038/s41467-020-16352-zhttps://doaj.org/toc/2041-1723Protein synthesis suppression protects breast cancer cells from clinically relevant stresses like hypoxia. Here, the authors show that unique mRNA isoforms that govern stem cell-like phenotypes escape translational repression to drive tumor progression and chemoresistance.Michael JewerLaura LeeMatthew LeibovitchGuihua ZhangJiahui LiuScott D. FindlayKrista M. VincentKristofferson TandocDylan Dieters-CastatorDaniela F. QuailIndrani DuttaMackenzie CoathamZhihua XuAakshi PuriBo-Jhih GuanMaria HatzoglouAndrea BrumwellJames UniackeChristos PatsisAntonis KoromilasJulia SchuelerGabrielle M. SiegersIvan TopisirovicLynne-Marie PostovitNature PortfolioarticleScienceQENNature Communications, Vol 11, Iss 1, Pp 1-16 (2020)
institution DOAJ
collection DOAJ
language EN
topic Science
Q
spellingShingle Science
Q
Michael Jewer
Laura Lee
Matthew Leibovitch
Guihua Zhang
Jiahui Liu
Scott D. Findlay
Krista M. Vincent
Kristofferson Tandoc
Dylan Dieters-Castator
Daniela F. Quail
Indrani Dutta
Mackenzie Coatham
Zhihua Xu
Aakshi Puri
Bo-Jhih Guan
Maria Hatzoglou
Andrea Brumwell
James Uniacke
Christos Patsis
Antonis Koromilas
Julia Schueler
Gabrielle M. Siegers
Ivan Topisirovic
Lynne-Marie Postovit
Translational control of breast cancer plasticity
description Protein synthesis suppression protects breast cancer cells from clinically relevant stresses like hypoxia. Here, the authors show that unique mRNA isoforms that govern stem cell-like phenotypes escape translational repression to drive tumor progression and chemoresistance.
format article
author Michael Jewer
Laura Lee
Matthew Leibovitch
Guihua Zhang
Jiahui Liu
Scott D. Findlay
Krista M. Vincent
Kristofferson Tandoc
Dylan Dieters-Castator
Daniela F. Quail
Indrani Dutta
Mackenzie Coatham
Zhihua Xu
Aakshi Puri
Bo-Jhih Guan
Maria Hatzoglou
Andrea Brumwell
James Uniacke
Christos Patsis
Antonis Koromilas
Julia Schueler
Gabrielle M. Siegers
Ivan Topisirovic
Lynne-Marie Postovit
author_facet Michael Jewer
Laura Lee
Matthew Leibovitch
Guihua Zhang
Jiahui Liu
Scott D. Findlay
Krista M. Vincent
Kristofferson Tandoc
Dylan Dieters-Castator
Daniela F. Quail
Indrani Dutta
Mackenzie Coatham
Zhihua Xu
Aakshi Puri
Bo-Jhih Guan
Maria Hatzoglou
Andrea Brumwell
James Uniacke
Christos Patsis
Antonis Koromilas
Julia Schueler
Gabrielle M. Siegers
Ivan Topisirovic
Lynne-Marie Postovit
author_sort Michael Jewer
title Translational control of breast cancer plasticity
title_short Translational control of breast cancer plasticity
title_full Translational control of breast cancer plasticity
title_fullStr Translational control of breast cancer plasticity
title_full_unstemmed Translational control of breast cancer plasticity
title_sort translational control of breast cancer plasticity
publisher Nature Portfolio
publishDate 2020
url https://doaj.org/article/312a98522c974e78ae7065a78eaa0f90
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