mTOR and S6K1 drive polycystic kidney by the control of Afadin-dependent oriented cell division

mTOR activation is known to generate polycystic kidneys, which show both increased proliferation and loss of oriented cell division (OCD). Here, Bonucci et al. show that loss of OCD is linked to S6K1 activation through its direct target Afadin and is separable from hyperproliferation.

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Autores principales: Martina Bonucci, Nicolas Kuperwasser, Serena Barbe, Vonda Koka, Delphine de Villeneuve, Chi Zhang, Nishit Srivastava, Xiaoying Jia, Matthew P. Stokes, Frank Bienaimé, Virginie Verkarre, Jean Baptiste Lopez, Fanny Jaulin, Marco Pontoglio, Fabiola Terzi, Benedicte Delaval, Matthieu Piel, Mario Pende
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Lenguaje:EN
Publicado: Nature Portfolio 2020
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Acceso en línea:https://doaj.org/article/7932503fbce7452fbc9e9d545274ef7a
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spelling oai:doaj.org-article:7932503fbce7452fbc9e9d545274ef7a2021-12-02T17:45:09ZmTOR and S6K1 drive polycystic kidney by the control of Afadin-dependent oriented cell division10.1038/s41467-020-16978-z2041-1723https://doaj.org/article/7932503fbce7452fbc9e9d545274ef7a2020-06-01T00:00:00Zhttps://doi.org/10.1038/s41467-020-16978-zhttps://doaj.org/toc/2041-1723mTOR activation is known to generate polycystic kidneys, which show both increased proliferation and loss of oriented cell division (OCD). Here, Bonucci et al. show that loss of OCD is linked to S6K1 activation through its direct target Afadin and is separable from hyperproliferation.Martina BonucciNicolas KuperwasserSerena BarbeVonda KokaDelphine de VilleneuveChi ZhangNishit SrivastavaXiaoying JiaMatthew P. StokesFrank BienaiméVirginie VerkarreJean Baptiste LopezFanny JaulinMarco PontoglioFabiola TerziBenedicte DelavalMatthieu PielMario PendeNature PortfolioarticleScienceQENNature Communications, Vol 11, Iss 1, Pp 1-17 (2020)
institution DOAJ
collection DOAJ
language EN
topic Science
Q
spellingShingle Science
Q
Martina Bonucci
Nicolas Kuperwasser
Serena Barbe
Vonda Koka
Delphine de Villeneuve
Chi Zhang
Nishit Srivastava
Xiaoying Jia
Matthew P. Stokes
Frank Bienaimé
Virginie Verkarre
Jean Baptiste Lopez
Fanny Jaulin
Marco Pontoglio
Fabiola Terzi
Benedicte Delaval
Matthieu Piel
Mario Pende
mTOR and S6K1 drive polycystic kidney by the control of Afadin-dependent oriented cell division
description mTOR activation is known to generate polycystic kidneys, which show both increased proliferation and loss of oriented cell division (OCD). Here, Bonucci et al. show that loss of OCD is linked to S6K1 activation through its direct target Afadin and is separable from hyperproliferation.
format article
author Martina Bonucci
Nicolas Kuperwasser
Serena Barbe
Vonda Koka
Delphine de Villeneuve
Chi Zhang
Nishit Srivastava
Xiaoying Jia
Matthew P. Stokes
Frank Bienaimé
Virginie Verkarre
Jean Baptiste Lopez
Fanny Jaulin
Marco Pontoglio
Fabiola Terzi
Benedicte Delaval
Matthieu Piel
Mario Pende
author_facet Martina Bonucci
Nicolas Kuperwasser
Serena Barbe
Vonda Koka
Delphine de Villeneuve
Chi Zhang
Nishit Srivastava
Xiaoying Jia
Matthew P. Stokes
Frank Bienaimé
Virginie Verkarre
Jean Baptiste Lopez
Fanny Jaulin
Marco Pontoglio
Fabiola Terzi
Benedicte Delaval
Matthieu Piel
Mario Pende
author_sort Martina Bonucci
title mTOR and S6K1 drive polycystic kidney by the control of Afadin-dependent oriented cell division
title_short mTOR and S6K1 drive polycystic kidney by the control of Afadin-dependent oriented cell division
title_full mTOR and S6K1 drive polycystic kidney by the control of Afadin-dependent oriented cell division
title_fullStr mTOR and S6K1 drive polycystic kidney by the control of Afadin-dependent oriented cell division
title_full_unstemmed mTOR and S6K1 drive polycystic kidney by the control of Afadin-dependent oriented cell division
title_sort mtor and s6k1 drive polycystic kidney by the control of afadin-dependent oriented cell division
publisher Nature Portfolio
publishDate 2020
url https://doaj.org/article/7932503fbce7452fbc9e9d545274ef7a
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