mTORC1 is necessary but mTORC2 and GSK3β are inhibitory for AKT3-induced axon regeneration in the central nervous system

mTORC1 is necessary but mTORC2 and GSK3β are inhibitory for AKT3-induced axon regeneration in the central nervous system

Injured mature CNS axons do not regenerate in mammals. Deletion of PTEN, the negative regulator of PI3K, induces CNS axon regeneration through the activation of PI3K-mTOR signaling. We have conducted an extensive molecular dissection of the cross-regulating mechanisms in axon regeneration that invol...

Full description

Bibliographic Details
Main Authors: Linqing Miao, Liu Yang, Haoliang Huang, Feisi Liang, Chen Ling, Yang Hu
Format: Article
Language:English
Published: eLife Sciences Publications Ltd 2016-03-01
Series:eLife
Subjects:
axon regeneration
AKT
mTORC1
mTORC2
GSK3
optic nerve
Online Access:https://elifesciences.org/articles/14908
id doaj-41f85a7f6f8a4c929b31cb165b2faf72
record_format Article
spelling doaj-41f85a7f6f8a4c929b31cb165b2faf722021-05-05T00:20:04ZengeLife Sciences Publications LtdeLife2050-084X2016-03-01510.7554/eLife.14908mTORC1 is necessary but mTORC2 and GSK3β are inhibitory for AKT3-induced axon regeneration in the central nervous systemLinqing Miao0Liu Yang1Haoliang Huang2Feisi Liang3Chen Ling4Yang Hu5https://orcid.org/0000-0002-7980-1649Shriners Hospitals Pediatric Research Center, Temple University Lewis Katz School of Medicine, Philadelphia, United StatesShriners Hospitals Pediatric Research Center, Temple University Lewis Katz School of Medicine, Philadelphia, United StatesShriners Hospitals Pediatric Research Center, Temple University Lewis Katz School of Medicine, Philadelphia, United StatesShriners Hospitals Pediatric Research Center, Temple University Lewis Katz School of Medicine, Philadelphia, United StatesDivision of Cellular and Molecular Therapy, Department of Pediatrics, University of Florida College of Medicine, Gainesville, United StatesShriners Hospitals Pediatric Research Center, Temple University Lewis Katz School of Medicine, Philadelphia, United States; Department of Anatomy and Cell Biology, Temple University Lewis Katz School of Medicine, Philadelphia, United StatesInjured mature CNS axons do not regenerate in mammals. Deletion of PTEN, the negative regulator of PI3K, induces CNS axon regeneration through the activation of PI3K-mTOR signaling. We have conducted an extensive molecular dissection of the cross-regulating mechanisms in axon regeneration that involve the downstream effectors of PI3K, AKT and the two mTOR complexes (mTORC1 and mTORC2). We found that the predominant AKT isoform in CNS, AKT3, induces much more robust axon regeneration than AKT1 and that activation of mTORC1 and inhibition of GSK3β are two critical parallel pathways for AKT-induced axon regeneration. Surprisingly, phosphorylation of T308 and S473 of AKT play opposite roles in GSK3β phosphorylation and inhibition, by which mTORC2 and pAKT-S473 negatively regulate axon regeneration. Thus, our study revealed a complex neuron-intrinsic balancing mechanism involving AKT as the nodal point of PI3K, mTORC1/2 and GSK3β that coordinates both positive and negative cues to regulate adult CNS axon regeneration.https://elifesciences.org/articles/14908axon regenerationAKTmTORC1mTORC2GSK3optic nerve
collection DOAJ
language English
format Article
sources DOAJ
author Linqing Miao
Liu Yang
Haoliang Huang
Feisi Liang
Chen Ling
Yang Hu
spellingShingle Linqing Miao
Liu Yang
Haoliang Huang
Feisi Liang
Chen Ling
Yang Hu
mTORC1 is necessary but mTORC2 and GSK3β are inhibitory for AKT3-induced axon regeneration in the central nervous system
eLife
axon regeneration
AKT
mTORC1
mTORC2
GSK3
optic nerve
author_facet Linqing Miao
Liu Yang
Haoliang Huang
Feisi Liang
Chen Ling
Yang Hu
author_sort Linqing Miao
title mTORC1 is necessary but mTORC2 and GSK3β are inhibitory for AKT3-induced axon regeneration in the central nervous system
title_short mTORC1 is necessary but mTORC2 and GSK3β are inhibitory for AKT3-induced axon regeneration in the central nervous system
title_full mTORC1 is necessary but mTORC2 and GSK3β are inhibitory for AKT3-induced axon regeneration in the central nervous system
title_fullStr mTORC1 is necessary but mTORC2 and GSK3β are inhibitory for AKT3-induced axon regeneration in the central nervous system
title_full_unstemmed mTORC1 is necessary but mTORC2 and GSK3β are inhibitory for AKT3-induced axon regeneration in the central nervous system
title_sort mtorc1 is necessary but mtorc2 and gsk3β are inhibitory for akt3-induced axon regeneration in the central nervous system
publisher eLife Sciences Publications Ltd
series eLife
issn 2050-084X
publishDate 2016-03-01
description Injured mature CNS axons do not regenerate in mammals. Deletion of PTEN, the negative regulator of PI3K, induces CNS axon regeneration through the activation of PI3K-mTOR signaling. We have conducted an extensive molecular dissection of the cross-regulating mechanisms in axon regeneration that involve the downstream effectors of PI3K, AKT and the two mTOR complexes (mTORC1 and mTORC2). We found that the predominant AKT isoform in CNS, AKT3, induces much more robust axon regeneration than AKT1 and that activation of mTORC1 and inhibition of GSK3β are two critical parallel pathways for AKT-induced axon regeneration. Surprisingly, phosphorylation of T308 and S473 of AKT play opposite roles in GSK3β phosphorylation and inhibition, by which mTORC2 and pAKT-S473 negatively regulate axon regeneration. Thus, our study revealed a complex neuron-intrinsic balancing mechanism involving AKT as the nodal point of PI3K, mTORC1/2 and GSK3β that coordinates both positive and negative cues to regulate adult CNS axon regeneration.
topic axon regeneration
AKT
mTORC1
mTORC2
GSK3
optic nerve
url https://elifesciences.org/articles/14908
work_keys_str_mv AT linqingmiao mtorc1isnecessarybutmtorc2andgsk3bareinhibitoryforakt3inducedaxonregenerationinthecentralnervoussystem
AT liuyang mtorc1isnecessarybutmtorc2andgsk3bareinhibitoryforakt3inducedaxonregenerationinthecentralnervoussystem
AT haolianghuang mtorc1isnecessarybutmtorc2andgsk3bareinhibitoryforakt3inducedaxonregenerationinthecentralnervoussystem
AT feisiliang mtorc1isnecessarybutmtorc2andgsk3bareinhibitoryforakt3inducedaxonregenerationinthecentralnervoussystem
AT chenling mtorc1isnecessarybutmtorc2andgsk3bareinhibitoryforakt3inducedaxonregenerationinthecentralnervoussystem
AT yanghu mtorc1isnecessarybutmtorc2andgsk3bareinhibitoryforakt3inducedaxonregenerationinthecentralnervoussystem
_version_ 1721476364956073984

Similar Items