Coordinate regulation of mature dopaminergic axon morphology by macroautophagy and the PTEN signaling pathway.

Coordinate regulation of mature dopaminergic axon morphology by macroautophagy and the PTEN signaling pathway.

Macroautophagy is a conserved mechanism for the bulk degradation of proteins and organelles. Pathological studies have implicated defective macroautophagy in neurodegeneration, but physiological functions of macroautophagy in adult neurons remain unclear. Here we show that Atg7, an essential macroau...

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Main Authors: Keiichi Inoue, Joanne Rispoli, Lichuan Yang, David Macleod, M Flint Beal, Eric Klann, Asa Abeliovich
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2013-01-01
Series:PLoS Genetics
Online Access:http://europepmc.org/articles/PMC3789823?pdf=render
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spelling doaj-d9c55396f76c41fa8407c92d6fa4699f2020-11-25T01:16:12ZengPublic Library of Science (PLoS)PLoS Genetics1553-73901553-74042013-01-01910e100384510.1371/journal.pgen.1003845Coordinate regulation of mature dopaminergic axon morphology by macroautophagy and the PTEN signaling pathway.Keiichi InoueJoanne RispoliLichuan YangDavid MacleodM Flint BealEric KlannAsa AbeliovichMacroautophagy is a conserved mechanism for the bulk degradation of proteins and organelles. Pathological studies have implicated defective macroautophagy in neurodegeneration, but physiological functions of macroautophagy in adult neurons remain unclear. Here we show that Atg7, an essential macroautophagy component, regulates dopaminergic axon terminal morphology. Mature Atg7-deficient midbrain dopamine (DA) neurons harbored selectively enlarged axonal terminals. This contrasted with the phenotype of DA neurons deficient in Pten - a key negative regulator of the mTOR kinase signaling pathway and neuron size - that displayed enlarged soma but unaltered axon terminals. Surprisingly, concomitant deficiency of both Atg7 and Pten led to a dramatic enhancement of axon terminal enlargement relative to Atg7 deletion alone. Similar genetic interactions between Atg7 and Pten were observed in the context of DA turnover and DA-dependent locomotor behaviors. These data suggest a model for morphological regulation of mature dopaminergic axon terminals whereby the impact of mTOR pathway is suppressed by macroautophagy.http://europepmc.org/articles/PMC3789823?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Keiichi Inoue
Joanne Rispoli
Lichuan Yang
David Macleod
M Flint Beal
Eric Klann
Asa Abeliovich
spellingShingle Keiichi Inoue
Joanne Rispoli
Lichuan Yang
David Macleod
M Flint Beal
Eric Klann
Asa Abeliovich
Coordinate regulation of mature dopaminergic axon morphology by macroautophagy and the PTEN signaling pathway.
PLoS Genetics
author_facet Keiichi Inoue
Joanne Rispoli
Lichuan Yang
David Macleod
M Flint Beal
Eric Klann
Asa Abeliovich
author_sort Keiichi Inoue
title Coordinate regulation of mature dopaminergic axon morphology by macroautophagy and the PTEN signaling pathway.
title_short Coordinate regulation of mature dopaminergic axon morphology by macroautophagy and the PTEN signaling pathway.
title_full Coordinate regulation of mature dopaminergic axon morphology by macroautophagy and the PTEN signaling pathway.
title_fullStr Coordinate regulation of mature dopaminergic axon morphology by macroautophagy and the PTEN signaling pathway.
title_full_unstemmed Coordinate regulation of mature dopaminergic axon morphology by macroautophagy and the PTEN signaling pathway.
title_sort coordinate regulation of mature dopaminergic axon morphology by macroautophagy and the pten signaling pathway.
publisher Public Library of Science (PLoS)
series PLoS Genetics
issn 1553-7390
1553-7404
publishDate 2013-01-01
description Macroautophagy is a conserved mechanism for the bulk degradation of proteins and organelles. Pathological studies have implicated defective macroautophagy in neurodegeneration, but physiological functions of macroautophagy in adult neurons remain unclear. Here we show that Atg7, an essential macroautophagy component, regulates dopaminergic axon terminal morphology. Mature Atg7-deficient midbrain dopamine (DA) neurons harbored selectively enlarged axonal terminals. This contrasted with the phenotype of DA neurons deficient in Pten - a key negative regulator of the mTOR kinase signaling pathway and neuron size - that displayed enlarged soma but unaltered axon terminals. Surprisingly, concomitant deficiency of both Atg7 and Pten led to a dramatic enhancement of axon terminal enlargement relative to Atg7 deletion alone. Similar genetic interactions between Atg7 and Pten were observed in the context of DA turnover and DA-dependent locomotor behaviors. These data suggest a model for morphological regulation of mature dopaminergic axon terminals whereby the impact of mTOR pathway is suppressed by macroautophagy.
url http://europepmc.org/articles/PMC3789823?pdf=render
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