Gtr/Ego-independent TORC1 activation is achieved through a glutamine-sensitive interaction with Pib2 on the vacuolar membrane.

Gtr/Ego-independent TORC1 activation is achieved through a glutamine-sensitive interaction with Pib2 on the vacuolar membrane.

TORC1 is a central regulator of cell growth in response to amino acids. The role of the evolutionarily conserved Gtr/Rag pathway in the regulation of TORC1 is well-established. Recent genetic studies suggest that an additional regulatory pathway, depending on the activity of Pib2, plays a role in TO...

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Main Authors: Hirofumi Ukai, Yasuhiro Araki, Shintaro Kira, Yu Oikawa, Alexander I May, Takeshi Noda
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2018-04-01
Series:PLoS Genetics
Online Access:http://europepmc.org/articles/PMC5919408?pdf=render
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spelling doaj-59a5af6dbaa04613b612a0f54fccd3072020-11-25T02:23:50ZengPublic Library of Science (PLoS)PLoS Genetics1553-73901553-74042018-04-01144e100733410.1371/journal.pgen.1007334Gtr/Ego-independent TORC1 activation is achieved through a glutamine-sensitive interaction with Pib2 on the vacuolar membrane.Hirofumi UkaiYasuhiro ArakiShintaro KiraYu OikawaAlexander I MayTakeshi NodaTORC1 is a central regulator of cell growth in response to amino acids. The role of the evolutionarily conserved Gtr/Rag pathway in the regulation of TORC1 is well-established. Recent genetic studies suggest that an additional regulatory pathway, depending on the activity of Pib2, plays a role in TORC1 activation independently of the Gtr/Rag pathway. However, the interplay between the Pib2 pathway and the Gtr/Rag pathway remains unclear. In this study, we show that Pib2 and Gtr/Ego form distinct complexes with TORC1 in a mutually exclusive manner, implying dedicated functional relationships between TORC1 and Pib2 or Gtr/Rag in response to specific amino acids. Furthermore, simultaneous depletion of Pib2 and the Gtr/Ego system abolishes TORC1 activity and completely compromises the vacuolar localization of TORC1. Thus, the amino acid-dependent activation of TORC1 is achieved through the Pib2 and Gtr/Ego pathways alone. Finally, we show that glutamine induces a dose-dependent increase in Pib2-TORC1 complex formation, and that glutamine binds directly to the Pib2 complex. These data provide strong preliminary evidence for Pib2 functioning as a putative glutamine sensor in the regulation of TORC1.http://europepmc.org/articles/PMC5919408?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Hirofumi Ukai
Yasuhiro Araki
Shintaro Kira
Yu Oikawa
Alexander I May
Takeshi Noda
spellingShingle Hirofumi Ukai
Yasuhiro Araki
Shintaro Kira
Yu Oikawa
Alexander I May
Takeshi Noda
Gtr/Ego-independent TORC1 activation is achieved through a glutamine-sensitive interaction with Pib2 on the vacuolar membrane.
PLoS Genetics
author_facet Hirofumi Ukai
Yasuhiro Araki
Shintaro Kira
Yu Oikawa
Alexander I May
Takeshi Noda
author_sort Hirofumi Ukai
title Gtr/Ego-independent TORC1 activation is achieved through a glutamine-sensitive interaction with Pib2 on the vacuolar membrane.
title_short Gtr/Ego-independent TORC1 activation is achieved through a glutamine-sensitive interaction with Pib2 on the vacuolar membrane.
title_full Gtr/Ego-independent TORC1 activation is achieved through a glutamine-sensitive interaction with Pib2 on the vacuolar membrane.
title_fullStr Gtr/Ego-independent TORC1 activation is achieved through a glutamine-sensitive interaction with Pib2 on the vacuolar membrane.
title_full_unstemmed Gtr/Ego-independent TORC1 activation is achieved through a glutamine-sensitive interaction with Pib2 on the vacuolar membrane.
title_sort gtr/ego-independent torc1 activation is achieved through a glutamine-sensitive interaction with pib2 on the vacuolar membrane.
publisher Public Library of Science (PLoS)
series PLoS Genetics
issn 1553-7390
1553-7404
publishDate 2018-04-01
description TORC1 is a central regulator of cell growth in response to amino acids. The role of the evolutionarily conserved Gtr/Rag pathway in the regulation of TORC1 is well-established. Recent genetic studies suggest that an additional regulatory pathway, depending on the activity of Pib2, plays a role in TORC1 activation independently of the Gtr/Rag pathway. However, the interplay between the Pib2 pathway and the Gtr/Rag pathway remains unclear. In this study, we show that Pib2 and Gtr/Ego form distinct complexes with TORC1 in a mutually exclusive manner, implying dedicated functional relationships between TORC1 and Pib2 or Gtr/Rag in response to specific amino acids. Furthermore, simultaneous depletion of Pib2 and the Gtr/Ego system abolishes TORC1 activity and completely compromises the vacuolar localization of TORC1. Thus, the amino acid-dependent activation of TORC1 is achieved through the Pib2 and Gtr/Ego pathways alone. Finally, we show that glutamine induces a dose-dependent increase in Pib2-TORC1 complex formation, and that glutamine binds directly to the Pib2 complex. These data provide strong preliminary evidence for Pib2 functioning as a putative glutamine sensor in the regulation of TORC1.
url http://europepmc.org/articles/PMC5919408?pdf=render
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AT yasuhiroaraki gtregoindependenttorc1activationisachievedthroughaglutaminesensitiveinteractionwithpib2onthevacuolarmembrane
AT shintarokira gtregoindependenttorc1activationisachievedthroughaglutaminesensitiveinteractionwithpib2onthevacuolarmembrane
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