The energy sensor AMPK regulates Hedgehog signaling in human cells through a unique Gli1 metabolic checkpoint

Hedgehog signaling controls proliferation of cerebellar granule cell precursors (GCPs) and its aberrant activation is a leading cause of Medulloblastoma, the most frequent pediatric brain tumor. We show here that the energy sensor AMPK inhibits Hh signaling by phosphorylating a single residue of hum...

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Autores principales: Di Magno, Laura, Basile, Alessio, Coni, Sonia, Manni, Simona, Sdruscia, Giulia, D'Amico, Davide, Antonucci, Laura, Infante, Paola, De Smaele, Enrico, Cucchi, Danilo, Ferretti, Elisabetta, Di Marcotullio, Lucia, Screpanti, Isabella, Canettieri, Gianluca
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Impact Journals LLC 2016
Materias:
Research Paper
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4891058/
https://www.ncbi.nlm.nih.gov/pubmed/26843621
http://dx.doi.org/10.18632/oncotarget.7070
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author Di Magno, Laura
Basile, Alessio
Coni, Sonia
Manni, Simona
Sdruscia, Giulia
D'Amico, Davide
Antonucci, Laura
Infante, Paola
De Smaele, Enrico
Cucchi, Danilo
Ferretti, Elisabetta
Di Marcotullio, Lucia
Screpanti, Isabella
Canettieri, Gianluca
author_facet Di Magno, Laura
Basile, Alessio
Coni, Sonia
Manni, Simona
Sdruscia, Giulia
D'Amico, Davide
Antonucci, Laura
Infante, Paola
De Smaele, Enrico
Cucchi, Danilo
Ferretti, Elisabetta
Di Marcotullio, Lucia
Screpanti, Isabella
Canettieri, Gianluca
author_sort Di Magno, Laura
collection PubMed
description Hedgehog signaling controls proliferation of cerebellar granule cell precursors (GCPs) and its aberrant activation is a leading cause of Medulloblastoma, the most frequent pediatric brain tumor. We show here that the energy sensor AMPK inhibits Hh signaling by phosphorylating a single residue of human Gli1 that is not conserved in other species. Studies with selective agonists and genetic deletion have revealed that AMPK activation inhibits canonical Hh signaling in human, but not in mouse cells. Indeed we show that AMPK phosphorylates Gli1 at the unique residue Ser408, which is conserved only in primates but not in other species. Once phosphorylated, Gli1 is targeted for proteasomal degradation. Notably, we show that selective AMPK activation inhibits Gli1-driven proliferation and that this effect is linked to Ser408 phosphorylation, which represents a key metabolic checkpoint for Hh signaling. Collectively, this data unveil a novel mechanism of inhibition of Gli1 function, which is exclusive for human cells and may be exploited for the treatment of Medulloblastoma or other Gli1 driven tumors.
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spelling pubmed-48910582016-06-20 The energy sensor AMPK regulates Hedgehog signaling in human cells through a unique Gli1 metabolic checkpoint Di Magno, Laura Basile, Alessio Coni, Sonia Manni, Simona Sdruscia, Giulia D'Amico, Davide Antonucci, Laura Infante, Paola De Smaele, Enrico Cucchi, Danilo Ferretti, Elisabetta Di Marcotullio, Lucia Screpanti, Isabella Canettieri, Gianluca Oncotarget Research Paper Hedgehog signaling controls proliferation of cerebellar granule cell precursors (GCPs) and its aberrant activation is a leading cause of Medulloblastoma, the most frequent pediatric brain tumor. We show here that the energy sensor AMPK inhibits Hh signaling by phosphorylating a single residue of human Gli1 that is not conserved in other species. Studies with selective agonists and genetic deletion have revealed that AMPK activation inhibits canonical Hh signaling in human, but not in mouse cells. Indeed we show that AMPK phosphorylates Gli1 at the unique residue Ser408, which is conserved only in primates but not in other species. Once phosphorylated, Gli1 is targeted for proteasomal degradation. Notably, we show that selective AMPK activation inhibits Gli1-driven proliferation and that this effect is linked to Ser408 phosphorylation, which represents a key metabolic checkpoint for Hh signaling. Collectively, this data unveil a novel mechanism of inhibition of Gli1 function, which is exclusive for human cells and may be exploited for the treatment of Medulloblastoma or other Gli1 driven tumors. Impact Journals LLC 2016-01-29 /pmc/articles/PMC4891058/ /pubmed/26843621 http://dx.doi.org/10.18632/oncotarget.7070 Text en Copyright: © 2016 Di Magno et al. http://creativecommons.org/licenses/by/2.5/ This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
spellingShingle Research Paper
Di Magno, Laura
Basile, Alessio
Coni, Sonia
Manni, Simona
Sdruscia, Giulia
D'Amico, Davide
Antonucci, Laura
Infante, Paola
De Smaele, Enrico
Cucchi, Danilo
Ferretti, Elisabetta
Di Marcotullio, Lucia
Screpanti, Isabella
Canettieri, Gianluca
The energy sensor AMPK regulates Hedgehog signaling in human cells through a unique Gli1 metabolic checkpoint
title The energy sensor AMPK regulates Hedgehog signaling in human cells through a unique Gli1 metabolic checkpoint
title_full The energy sensor AMPK regulates Hedgehog signaling in human cells through a unique Gli1 metabolic checkpoint
title_fullStr The energy sensor AMPK regulates Hedgehog signaling in human cells through a unique Gli1 metabolic checkpoint
title_full_unstemmed The energy sensor AMPK regulates Hedgehog signaling in human cells through a unique Gli1 metabolic checkpoint
title_short The energy sensor AMPK regulates Hedgehog signaling in human cells through a unique Gli1 metabolic checkpoint
title_sort energy sensor ampk regulates hedgehog signaling in human cells through a unique gli1 metabolic checkpoint
topic Research Paper
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4891058/
https://www.ncbi.nlm.nih.gov/pubmed/26843621
http://dx.doi.org/10.18632/oncotarget.7070
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