A systems study reveals concurrent activation of AMPK and mTOR by amino acids

mTORC1 is known to mediate the signalling activity of amino acids. Here, the authors combine modelling with experiments and find that amino acids acutely stimulate mTORC2, IRS/PI3K and AMPK, independently of mTORC1. AMPK activation through CaMKKβ sustains autophagy under non-starvation conditions.

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Autores principales: Piero Dalle Pezze, Stefanie Ruf, Annika G. Sonntag, Miriam Langelaar-Makkinje, Philip Hall, Alexander M. Heberle, Patricia Razquin Navas, Karen van Eunen, Regine C. Tölle, Jennifer J. Schwarz, Heike Wiese, Bettina Warscheid, Jana Deitersen, Björn Stork, Erik Fäßler, Sascha Schäuble, Udo Hahn, Peter Horvatovich, Daryl P. Shanley, Kathrin Thedieck
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Lenguaje:EN
Publicado: Nature Portfolio 2016
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Acceso en línea:https://doaj.org/article/4a285de016fb4d67ada2a43c868dc313
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spelling oai:doaj.org-article:4a285de016fb4d67ada2a43c868dc3132021-12-02T17:32:07ZA systems study reveals concurrent activation of AMPK and mTOR by amino acids10.1038/ncomms132542041-1723https://doaj.org/article/4a285de016fb4d67ada2a43c868dc3132016-11-01T00:00:00Zhttps://doi.org/10.1038/ncomms13254https://doaj.org/toc/2041-1723mTORC1 is known to mediate the signalling activity of amino acids. Here, the authors combine modelling with experiments and find that amino acids acutely stimulate mTORC2, IRS/PI3K and AMPK, independently of mTORC1. AMPK activation through CaMKKβ sustains autophagy under non-starvation conditions.Piero Dalle PezzeStefanie RufAnnika G. SonntagMiriam Langelaar-MakkinjePhilip HallAlexander M. HeberlePatricia Razquin NavasKaren van EunenRegine C. TölleJennifer J. SchwarzHeike WieseBettina WarscheidJana DeitersenBjörn StorkErik FäßlerSascha SchäubleUdo HahnPeter HorvatovichDaryl P. ShanleyKathrin ThedieckNature PortfolioarticleScienceQENNature Communications, Vol 7, Iss 1, Pp 1-19 (2016)
institution DOAJ
collection DOAJ
language EN
topic Science
Q
spellingShingle Science
Q
Piero Dalle Pezze
Stefanie Ruf
Annika G. Sonntag
Miriam Langelaar-Makkinje
Philip Hall
Alexander M. Heberle
Patricia Razquin Navas
Karen van Eunen
Regine C. Tölle
Jennifer J. Schwarz
Heike Wiese
Bettina Warscheid
Jana Deitersen
Björn Stork
Erik Fäßler
Sascha Schäuble
Udo Hahn
Peter Horvatovich
Daryl P. Shanley
Kathrin Thedieck
A systems study reveals concurrent activation of AMPK and mTOR by amino acids
description mTORC1 is known to mediate the signalling activity of amino acids. Here, the authors combine modelling with experiments and find that amino acids acutely stimulate mTORC2, IRS/PI3K and AMPK, independently of mTORC1. AMPK activation through CaMKKβ sustains autophagy under non-starvation conditions.
format article
author Piero Dalle Pezze
Stefanie Ruf
Annika G. Sonntag
Miriam Langelaar-Makkinje
Philip Hall
Alexander M. Heberle
Patricia Razquin Navas
Karen van Eunen
Regine C. Tölle
Jennifer J. Schwarz
Heike Wiese
Bettina Warscheid
Jana Deitersen
Björn Stork
Erik Fäßler
Sascha Schäuble
Udo Hahn
Peter Horvatovich
Daryl P. Shanley
Kathrin Thedieck
author_facet Piero Dalle Pezze
Stefanie Ruf
Annika G. Sonntag
Miriam Langelaar-Makkinje
Philip Hall
Alexander M. Heberle
Patricia Razquin Navas
Karen van Eunen
Regine C. Tölle
Jennifer J. Schwarz
Heike Wiese
Bettina Warscheid
Jana Deitersen
Björn Stork
Erik Fäßler
Sascha Schäuble
Udo Hahn
Peter Horvatovich
Daryl P. Shanley
Kathrin Thedieck
author_sort Piero Dalle Pezze
title A systems study reveals concurrent activation of AMPK and mTOR by amino acids
title_short A systems study reveals concurrent activation of AMPK and mTOR by amino acids
title_full A systems study reveals concurrent activation of AMPK and mTOR by amino acids
title_fullStr A systems study reveals concurrent activation of AMPK and mTOR by amino acids
title_full_unstemmed A systems study reveals concurrent activation of AMPK and mTOR by amino acids
title_sort systems study reveals concurrent activation of ampk and mtor by amino acids
publisher Nature Portfolio
publishDate 2016
url https://doaj.org/article/4a285de016fb4d67ada2a43c868dc313
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