PHD1 controls muscle mTORC1 in a hydroxylation-independent manner by stabilizing leucyl tRNA synthetase

D’Hulst, Gommaar; Soro-Arnáiz, Inés; Masschelein, Evi; Veys, Koen; Fitzgerald, Gillian; Smeuninx, Benoit; Kim, Sung‐Hoon; Deldicque, Louise; Blaauw, Bert; Carmeliet, Peter; Breen, Leigh; Koivunen, Peppi; Zhao, Shimin; Bock, Katrien De

doi:10.1038/s41467-019-13889-6

articleNature CommunicationsJan 10, 2020GOLD OA

PHD1 controls muscle mTORC1 in a hydroxylation-independent manner by stabilizing leucyl tRNA synthetase

GDGommaar D’Hulst ISInés Soro-Arnáiz EMEvi Masschelein KVKoen Veys GFGillian Fitzgerald

ETH Zurich · VIB-KU Leuven Center for Cancer Biology · +9 more institutions

PubMed

Indexed incrossrefdatacitedoajpubmed

Abstract

Abstract mTORC1 is an important regulator of muscle mass but how it is modulated by oxygen and nutrients is not completely understood. We show that loss of the prolyl hydroxylase domain isoform 1 oxygen sensor in mice (PHD1 KO ) reduces muscle mass. PHD1 KO muscles show impaired mTORC1 activation in response to leucine whereas mTORC1 activation by growth factors or eccentric contractions was preserved. The ability of PHD1 to promote mTORC1 activity is independent of its hydroxylation activity but is caused by decreased protein content of the leucyl tRNA synthetase (LRS) leucine sensor. Mechanistically, PHD1 interacts with and stabilizes LRS. This interaction is promoted during oxygen and amino acid depletion…

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Topics

Keywords

Leucine
Hydroxylation
mTORC1
Biochemistry
Amino acid
Skeletal muscle
Biology
Chemistry

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