An FGFR3/MYC positive feedback loop provides new opportunities for targeted therapies in bladder cancers

An FGFR3/MYC positive feedback loop provides new opportunities for targeted therapies in bladder cancers

Abstract FGFR3 alterations (mutations or translocation) are among the most frequent genetic events in bladder carcinoma. They lead to an aberrant activation of FGFR3 signaling, conferring an oncogenic dependence, which we studied here. We discovered a positive feedback loop, in which the activation...

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Main Authors: Mélanie Mahe, Florent Dufour, Hélène Neyret‐Kahn, Aura Moreno‐Vega, Claire Beraud, Mingjun Shi, Imene Hamaidi, Virginia Sanchez‐Quiles, Clementine Krucker, Marion Dorland‐Galliot, Elodie Chapeaublanc, Remy Nicolle, Hervé Lang, Celio Pouponnot, Thierry Massfelder, François Radvanyi, Isabelle Bernard‐Pierrot
Format: Article
Language:English
Published: Wiley 2018-04-01
Series:EMBO Molecular Medicine
Subjects:
BET inhibitors
bladder cancer
FGFR3
MYC
p38
Online Access:https://doi.org/10.15252/emmm.201708163
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spelling doaj-1ed43450adb6412f8cc0a5fba9c79f142021-08-02T10:05:35ZengWileyEMBO Molecular Medicine1757-46761757-46842018-04-01104n/an/a10.15252/emmm.201708163An FGFR3/MYC positive feedback loop provides new opportunities for targeted therapies in bladder cancersMélanie Mahe0Florent Dufour1Hélène Neyret‐Kahn2Aura Moreno‐Vega3Claire Beraud4Mingjun Shi5Imene Hamaidi6Virginia Sanchez‐Quiles7Clementine Krucker8Marion Dorland‐Galliot9Elodie Chapeaublanc10Remy Nicolle11Hervé Lang12Celio Pouponnot13Thierry Massfelder14François Radvanyi15Isabelle Bernard‐Pierrot16Institut Curie CNRS UMR144 Equipe Labellisée Ligue contre le Cancer PSL Research University Paris FranceInstitut Curie CNRS UMR144 Equipe Labellisée Ligue contre le Cancer PSL Research University Paris FranceInstitut Curie CNRS UMR144 Equipe Labellisée Ligue contre le Cancer PSL Research University Paris FranceInstitut Curie CNRS UMR144 Equipe Labellisée Ligue contre le Cancer PSL Research University Paris FranceUROLEAD SAS School of Medicine Strasbourg FranceInstitut Curie CNRS UMR144 Equipe Labellisée Ligue contre le Cancer PSL Research University Paris FranceDepartment of Urology Nouvel Hôpital Civil Hôpitaux Universitaires de Strasbourg Strasbourg FranceInstitut Curie CNRS UMR144 Equipe Labellisée Ligue contre le Cancer PSL Research University Paris FranceInstitut Curie CNRS UMR144 Equipe Labellisée Ligue contre le Cancer PSL Research University Paris FranceInstitut Curie CNRS UMR144 Equipe Labellisée Ligue contre le Cancer PSL Research University Paris FranceInstitut Curie CNRS UMR144 Equipe Labellisée Ligue contre le Cancer PSL Research University Paris FranceInstitut Curie CNRS UMR144 Equipe Labellisée Ligue contre le Cancer PSL Research University Paris FranceDepartment of Urology Nouvel Hôpital Civil Hôpitaux Universitaires de Strasbourg Strasbourg FranceInstitut Curie Orsay FranceINSERM UMR_S1113 Section of Cell Signalization and Communication in Kidney and Prostate Cancer School of Medicine Fédération de Médecine Translationnelle de Strasbourg (FMTS) INSERM and University of Strasbourg Strasbourg FranceInstitut Curie CNRS UMR144 Equipe Labellisée Ligue contre le Cancer PSL Research University Paris FranceInstitut Curie CNRS UMR144 Equipe Labellisée Ligue contre le Cancer PSL Research University Paris FranceAbstract FGFR3 alterations (mutations or translocation) are among the most frequent genetic events in bladder carcinoma. They lead to an aberrant activation of FGFR3 signaling, conferring an oncogenic dependence, which we studied here. We discovered a positive feedback loop, in which the activation of p38 and AKT downstream from the altered FGFR3 upregulates MYC mRNA levels and stabilizes MYC protein, respectively, leading to the accumulation of MYC, which directly upregulates FGFR3 expression by binding to active enhancers upstream from FGFR3. Disruption of this FGFR3/MYC loop in bladder cancer cell lines by treatment with FGFR3, p38, AKT, or BET bromodomain inhibitors (JQ1) preventing MYC transcription decreased cell viability in vitro and tumor growth in vivo. A relevance of this loop to human bladder tumors was supported by the positive correlation between FGFR3 and MYC levels in tumors bearing FGFR3 mutations, and the decrease in FGFR3 and MYC levels following anti‐FGFR treatment in a PDX model bearing an FGFR3 mutation. These findings open up new possibilities for the treatment of bladder tumors displaying aberrant FGFR3 activation.https://doi.org/10.15252/emmm.201708163BET inhibitorsbladder cancerFGFR3MYCp38
collection DOAJ
language English
format Article
sources DOAJ
author Mélanie Mahe
Florent Dufour
Hélène Neyret‐Kahn
Aura Moreno‐Vega
Claire Beraud
Mingjun Shi
Imene Hamaidi
Virginia Sanchez‐Quiles
Clementine Krucker
Marion Dorland‐Galliot
Elodie Chapeaublanc
Remy Nicolle
Hervé Lang
Celio Pouponnot
Thierry Massfelder
François Radvanyi
Isabelle Bernard‐Pierrot
spellingShingle Mélanie Mahe
Florent Dufour
Hélène Neyret‐Kahn
Aura Moreno‐Vega
Claire Beraud
Mingjun Shi
Imene Hamaidi
Virginia Sanchez‐Quiles
Clementine Krucker
Marion Dorland‐Galliot
Elodie Chapeaublanc
Remy Nicolle
Hervé Lang
Celio Pouponnot
Thierry Massfelder
François Radvanyi
Isabelle Bernard‐Pierrot
An FGFR3/MYC positive feedback loop provides new opportunities for targeted therapies in bladder cancers
EMBO Molecular Medicine
BET inhibitors
bladder cancer
FGFR3
MYC
p38
author_facet Mélanie Mahe
Florent Dufour
Hélène Neyret‐Kahn
Aura Moreno‐Vega
Claire Beraud
Mingjun Shi
Imene Hamaidi
Virginia Sanchez‐Quiles
Clementine Krucker
Marion Dorland‐Galliot
Elodie Chapeaublanc
Remy Nicolle
Hervé Lang
Celio Pouponnot
Thierry Massfelder
François Radvanyi
Isabelle Bernard‐Pierrot
author_sort Mélanie Mahe
title An FGFR3/MYC positive feedback loop provides new opportunities for targeted therapies in bladder cancers
title_short An FGFR3/MYC positive feedback loop provides new opportunities for targeted therapies in bladder cancers
title_full An FGFR3/MYC positive feedback loop provides new opportunities for targeted therapies in bladder cancers
title_fullStr An FGFR3/MYC positive feedback loop provides new opportunities for targeted therapies in bladder cancers
title_full_unstemmed An FGFR3/MYC positive feedback loop provides new opportunities for targeted therapies in bladder cancers
title_sort fgfr3/myc positive feedback loop provides new opportunities for targeted therapies in bladder cancers
publisher Wiley
series EMBO Molecular Medicine
issn 1757-4676
1757-4684
publishDate 2018-04-01
description Abstract FGFR3 alterations (mutations or translocation) are among the most frequent genetic events in bladder carcinoma. They lead to an aberrant activation of FGFR3 signaling, conferring an oncogenic dependence, which we studied here. We discovered a positive feedback loop, in which the activation of p38 and AKT downstream from the altered FGFR3 upregulates MYC mRNA levels and stabilizes MYC protein, respectively, leading to the accumulation of MYC, which directly upregulates FGFR3 expression by binding to active enhancers upstream from FGFR3. Disruption of this FGFR3/MYC loop in bladder cancer cell lines by treatment with FGFR3, p38, AKT, or BET bromodomain inhibitors (JQ1) preventing MYC transcription decreased cell viability in vitro and tumor growth in vivo. A relevance of this loop to human bladder tumors was supported by the positive correlation between FGFR3 and MYC levels in tumors bearing FGFR3 mutations, and the decrease in FGFR3 and MYC levels following anti‐FGFR treatment in a PDX model bearing an FGFR3 mutation. These findings open up new possibilities for the treatment of bladder tumors displaying aberrant FGFR3 activation.
topic BET inhibitors
bladder cancer
FGFR3
MYC
p38
url https://doi.org/10.15252/emmm.201708163
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