Title
Leucine Induced Dephosphorylation Of Sestrin2 Promotes Mtorc1 Activation
Keywords
Amino acids; Mechanistic target of rapamycin; Rag GTPases; Signaling; ULK1
Abstract
The studies described herein were designed to explore the role of Sestrin2 in mediating the selective action of leucine to activate mTORC1. The results demonstrate that Sestrin2 is a phosphoprotein and that its phosphorylation state is responsive to the availability of leucine, but not other essential amino acids. Moreover, leucine availability-induced alterations in Sestrin2 phosphorylation correlated temporally and dose dependently with the activation state of mTORC1, there being a reciprocal relationship between the degree of phosphorylation of Sestrin2 and the extent of repression of mTORC1. With leucine deprivation, Sestrin2 became more highly phosphorylated and interacted more strongly with proteins of the GATOR2 complex. Notably, in cells lacking the protein kinase ULK1, the activation state of mTORC1 was elevated in leucine-deficient medium, such that the effect of re-addition of the amino acid was blunted. In contrast, overexpression of ULK1 led to hyperphosphorylation of Sestrin2 and enhanced its interaction with GATOR2. Neither rapamycin nor Torin2 had any effect on Sestrin2 phosphorylation, suggesting that leucine deprivation-induced repression of mTORC1 was not responsible for the action of ULK1 on Sestrin2. Mass spectrometry analysis of Sestrin2 revealed three phosphorylation sites that are conserved across mammalian species. Mutation of the three sites to phospho-mimetic amino acids in exogenously expressed Sestrin2 promoted its interaction with GATOR2 and dramatically repressed mTORC1 even in the presence of leucine. Overall, the results support a model in which leucine selectively promotes dephosphorylation of Sestrin2, causing it to dissociate from and thereby activate GATOR2, leading to activation of mTORC1.
Publication Date
8-1-2016
Publication Title
Cellular Signalling
Volume
28
Issue
8
Number of Pages
896-906
Document Type
Article
Personal Identifier
scopus
DOI Link
https://doi.org/10.1016/j.cellsig.2016.03.008
Copyright Status
Unknown
Socpus ID
84966393355 (Scopus)
Source API URL
https://api.elsevier.com/content/abstract/scopus_id/84966393355
STARS Citation
Kimball, Scot R.; Gordon, Bradley S.; Moyer, Jenna E.; Dennis, Michael D.; and Jefferson, Leonard S., "Leucine Induced Dephosphorylation Of Sestrin2 Promotes Mtorc1 Activation" (2016). Scopus Export 2015-2019. 3670.
https://stars.library.ucf.edu/scopus2015/3670