RRM2 enhances MYCN-driven neuroblastoma formation and acts as a synergistic target with CHK1 inhibition

High-risk neuroblastoma, a pediatric tumor originating from the sympathetic nervous system, has a low mutation load but highly recurrent somatic DNA copy number variants. Previously, segmental gains and/or amplifications allowed identification of drivers for neuroblastoma development. Using this app...

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Autores principales: Nunes, Carolina, Depestel, Lisa, Mus, Liselot, Keller, Kaylee M., Delhaye, Louis, Louwagie, Amber, Rishfi, Muhammad, Whale, Alex, Kara, Neesha, Andrews, Simon R., Dela Cruz, Filemon, You, Daoqi, Siddiquee, Armaan, Cologna, Camila Takeno, De Craemer, Sam, Dolman, Emmy, Bartenhagen, Christoph, De Vloed, Fanny, Sanders, Ellen, Eggermont, Aline, Bekaert, Sarah-Lee, Van Loocke, Wouter, Bek, Jan Willem, Dewyn, Givani, Loontiens, Siebe, Van Isterdael, Gert, Decaesteker, Bieke, Tilleman, Laurentijn, Van Nieuwerburgh, Filip, Vermeirssen, Vanessa, Van Neste, Christophe, Ghesquiere, Bart, Goossens, Steven, Eyckerman, Sven, De Preter, Katleen, Fischer, Matthias, Houseley, Jon, Molenaar, Jan, De Wilde, Bram, Roberts, Stephen S., Durinck, Kaat, Speleman, Frank
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American Association for the Advancement of Science 2022
Materias:
Biomedicine and Life Sciences
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9278860/
https://www.ncbi.nlm.nih.gov/pubmed/35857500
http://dx.doi.org/10.1126/sciadv.abn1382
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author Nunes, Carolina
Depestel, Lisa
Mus, Liselot
Keller, Kaylee M.
Delhaye, Louis
Louwagie, Amber
Rishfi, Muhammad
Whale, Alex
Kara, Neesha
Andrews, Simon R.
Dela Cruz, Filemon
You, Daoqi
Siddiquee, Armaan
Cologna, Camila Takeno
De Craemer, Sam
Dolman, Emmy
Bartenhagen, Christoph
De Vloed, Fanny
Sanders, Ellen
Eggermont, Aline
Bekaert, Sarah-Lee
Van Loocke, Wouter
Bek, Jan Willem
Dewyn, Givani
Loontiens, Siebe
Van Isterdael, Gert
Decaesteker, Bieke
Tilleman, Laurentijn
Van Nieuwerburgh, Filip
Vermeirssen, Vanessa
Van Neste, Christophe
Ghesquiere, Bart
Goossens, Steven
Eyckerman, Sven
De Preter, Katleen
Fischer, Matthias
Houseley, Jon
Molenaar, Jan
De Wilde, Bram
Roberts, Stephen S.
Durinck, Kaat
Speleman, Frank
author_facet Nunes, Carolina
Depestel, Lisa
Mus, Liselot
Keller, Kaylee M.
Delhaye, Louis
Louwagie, Amber
Rishfi, Muhammad
Whale, Alex
Kara, Neesha
Andrews, Simon R.
Dela Cruz, Filemon
You, Daoqi
Siddiquee, Armaan
Cologna, Camila Takeno
De Craemer, Sam
Dolman, Emmy
Bartenhagen, Christoph
De Vloed, Fanny
Sanders, Ellen
Eggermont, Aline
Bekaert, Sarah-Lee
Van Loocke, Wouter
Bek, Jan Willem
Dewyn, Givani
Loontiens, Siebe
Van Isterdael, Gert
Decaesteker, Bieke
Tilleman, Laurentijn
Van Nieuwerburgh, Filip
Vermeirssen, Vanessa
Van Neste, Christophe
Ghesquiere, Bart
Goossens, Steven
Eyckerman, Sven
De Preter, Katleen
Fischer, Matthias
Houseley, Jon
Molenaar, Jan
De Wilde, Bram
Roberts, Stephen S.
Durinck, Kaat
Speleman, Frank
author_sort Nunes, Carolina
collection PubMed
description High-risk neuroblastoma, a pediatric tumor originating from the sympathetic nervous system, has a low mutation load but highly recurrent somatic DNA copy number variants. Previously, segmental gains and/or amplifications allowed identification of drivers for neuroblastoma development. Using this approach, combined with gene dosage impact on expression and survival, we identified ribonucleotide reductase subunit M2 (RRM2) as a candidate dependency factor further supported by growth inhibition upon in vitro knockdown and accelerated tumor formation in a neuroblastoma zebrafish model coexpressing human RRM2 with MYCN. Forced RRM2 induction alleviates excessive replicative stress induced by CHK1 inhibition, while high RRM2 expression in human neuroblastomas correlates with high CHK1 activity. MYCN-driven zebrafish tumors with RRM2 co-overexpression exhibit differentially expressed DNA repair genes in keeping with enhanced ATR-CHK1 signaling activity. In vitro, RRM2 inhibition enhances intrinsic replication stress checkpoint addiction. Last, combinatorial RRM2-CHK1 inhibition acts synergistic in high-risk neuroblastoma cell lines and patient-derived xenograft models, illustrating the therapeutic potential.
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spelling pubmed-92788602022-07-29 RRM2 enhances MYCN-driven neuroblastoma formation and acts as a synergistic target with CHK1 inhibition Nunes, Carolina Depestel, Lisa Mus, Liselot Keller, Kaylee M. Delhaye, Louis Louwagie, Amber Rishfi, Muhammad Whale, Alex Kara, Neesha Andrews, Simon R. Dela Cruz, Filemon You, Daoqi Siddiquee, Armaan Cologna, Camila Takeno De Craemer, Sam Dolman, Emmy Bartenhagen, Christoph De Vloed, Fanny Sanders, Ellen Eggermont, Aline Bekaert, Sarah-Lee Van Loocke, Wouter Bek, Jan Willem Dewyn, Givani Loontiens, Siebe Van Isterdael, Gert Decaesteker, Bieke Tilleman, Laurentijn Van Nieuwerburgh, Filip Vermeirssen, Vanessa Van Neste, Christophe Ghesquiere, Bart Goossens, Steven Eyckerman, Sven De Preter, Katleen Fischer, Matthias Houseley, Jon Molenaar, Jan De Wilde, Bram Roberts, Stephen S. Durinck, Kaat Speleman, Frank Sci Adv Biomedicine and Life Sciences High-risk neuroblastoma, a pediatric tumor originating from the sympathetic nervous system, has a low mutation load but highly recurrent somatic DNA copy number variants. Previously, segmental gains and/or amplifications allowed identification of drivers for neuroblastoma development. Using this approach, combined with gene dosage impact on expression and survival, we identified ribonucleotide reductase subunit M2 (RRM2) as a candidate dependency factor further supported by growth inhibition upon in vitro knockdown and accelerated tumor formation in a neuroblastoma zebrafish model coexpressing human RRM2 with MYCN. Forced RRM2 induction alleviates excessive replicative stress induced by CHK1 inhibition, while high RRM2 expression in human neuroblastomas correlates with high CHK1 activity. MYCN-driven zebrafish tumors with RRM2 co-overexpression exhibit differentially expressed DNA repair genes in keeping with enhanced ATR-CHK1 signaling activity. In vitro, RRM2 inhibition enhances intrinsic replication stress checkpoint addiction. Last, combinatorial RRM2-CHK1 inhibition acts synergistic in high-risk neuroblastoma cell lines and patient-derived xenograft models, illustrating the therapeutic potential. American Association for the Advancement of Science 2022-07-13 /pmc/articles/PMC9278860/ /pubmed/35857500 http://dx.doi.org/10.1126/sciadv.abn1382 Text en Copyright © 2022 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works. Distributed under a Creative Commons Attribution NonCommercial License 4.0 (CC BY-NC). https://creativecommons.org/licenses/by-nc/4.0/This is an open-access article distributed under the terms of the Creative Commons Attribution-NonCommercial license (https://creativecommons.org/licenses/by-nc/4.0/) , which permits use, distribution, and reproduction in any medium, so long as the resultant use is not for commercial advantage and provided the original work is properly cited.
spellingShingle Biomedicine and Life Sciences
Nunes, Carolina
Depestel, Lisa
Mus, Liselot
Keller, Kaylee M.
Delhaye, Louis
Louwagie, Amber
Rishfi, Muhammad
Whale, Alex
Kara, Neesha
Andrews, Simon R.
Dela Cruz, Filemon
You, Daoqi
Siddiquee, Armaan
Cologna, Camila Takeno
De Craemer, Sam
Dolman, Emmy
Bartenhagen, Christoph
De Vloed, Fanny
Sanders, Ellen
Eggermont, Aline
Bekaert, Sarah-Lee
Van Loocke, Wouter
Bek, Jan Willem
Dewyn, Givani
Loontiens, Siebe
Van Isterdael, Gert
Decaesteker, Bieke
Tilleman, Laurentijn
Van Nieuwerburgh, Filip
Vermeirssen, Vanessa
Van Neste, Christophe
Ghesquiere, Bart
Goossens, Steven
Eyckerman, Sven
De Preter, Katleen
Fischer, Matthias
Houseley, Jon
Molenaar, Jan
De Wilde, Bram
Roberts, Stephen S.
Durinck, Kaat
Speleman, Frank
RRM2 enhances MYCN-driven neuroblastoma formation and acts as a synergistic target with CHK1 inhibition
title RRM2 enhances MYCN-driven neuroblastoma formation and acts as a synergistic target with CHK1 inhibition
title_full RRM2 enhances MYCN-driven neuroblastoma formation and acts as a synergistic target with CHK1 inhibition
title_fullStr RRM2 enhances MYCN-driven neuroblastoma formation and acts as a synergistic target with CHK1 inhibition
title_full_unstemmed RRM2 enhances MYCN-driven neuroblastoma formation and acts as a synergistic target with CHK1 inhibition
title_short RRM2 enhances MYCN-driven neuroblastoma formation and acts as a synergistic target with CHK1 inhibition
title_sort rrm2 enhances mycn-driven neuroblastoma formation and acts as a synergistic target with chk1 inhibition
topic Biomedicine and Life Sciences
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9278860/
https://www.ncbi.nlm.nih.gov/pubmed/35857500
http://dx.doi.org/10.1126/sciadv.abn1382
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