Methylome analyses of three glioblastoma cohorts reveal chemotherapy sensitivity markers within DDR genes

Methylome analyses of three glioblastoma cohorts reveal chemotherapy sensitivity markers within DDR genes

Abstract Background Gliomas evade current therapies through primary and acquired resistance and the effect of temozolomide is mainly restricted to methylguanin‐O6-methyltransferase promoter (MGMT) promoter hypermethylated tumors. Further resistance markers are largely unknown and would help for bett...

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Main Authors: Tobias Kessler, Anne Berberich, Ahmed Sadik, Felix Sahm, Thierry Gorlia, Christoph Meisner, Dirk C. Hoffmann, Antje Wick, Philipp Kickingereder, Petra Rübmann, Martin Bendszus, Christiane Opitz, Michael Weller, Martin van denBent, Roger Stupp, Frank Winkler, Alba Brandes, Andreas vonDeimling, Michael Platten, Wolfgang Wick
Format: Article
Language:English
Published: Wiley 2020-11-01
Series:Cancer Medicine
Online Access:https://doi.org/10.1002/cam4.3447
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author Tobias Kessler
Anne Berberich
Ahmed Sadik
Felix Sahm
Thierry Gorlia
Christoph Meisner
Dirk C. Hoffmann
Antje Wick
Philipp Kickingereder
Petra Rübmann
Martin Bendszus
Christiane Opitz
Michael Weller
Martin van denBent
Roger Stupp
Frank Winkler
Alba Brandes
Andreas vonDeimling
Michael Platten
Wolfgang Wick
spellingShingle Tobias Kessler
Anne Berberich
Ahmed Sadik
Felix Sahm
Thierry Gorlia
Christoph Meisner
Dirk C. Hoffmann
Antje Wick
Philipp Kickingereder
Petra Rübmann
Martin Bendszus
Christiane Opitz
Michael Weller
Martin van denBent
Roger Stupp
Frank Winkler
Alba Brandes
Andreas vonDeimling
Michael Platten
Wolfgang Wick
Methylome analyses of three glioblastoma cohorts reveal chemotherapy sensitivity markers within DDR genes
Cancer Medicine
author_facet Tobias Kessler
Anne Berberich
Ahmed Sadik
Felix Sahm
Thierry Gorlia
Christoph Meisner
Dirk C. Hoffmann
Antje Wick
Philipp Kickingereder
Petra Rübmann
Martin Bendszus
Christiane Opitz
Michael Weller
Martin van denBent
Roger Stupp
Frank Winkler
Alba Brandes
Andreas vonDeimling
Michael Platten
Wolfgang Wick
author_sort Tobias Kessler
title Methylome analyses of three glioblastoma cohorts reveal chemotherapy sensitivity markers within DDR genes
title_short Methylome analyses of three glioblastoma cohorts reveal chemotherapy sensitivity markers within DDR genes
title_full Methylome analyses of three glioblastoma cohorts reveal chemotherapy sensitivity markers within DDR genes
title_fullStr Methylome analyses of three glioblastoma cohorts reveal chemotherapy sensitivity markers within DDR genes
title_full_unstemmed Methylome analyses of three glioblastoma cohorts reveal chemotherapy sensitivity markers within DDR genes
title_sort methylome analyses of three glioblastoma cohorts reveal chemotherapy sensitivity markers within ddr genes
publisher Wiley
series Cancer Medicine
issn 2045-7634
publishDate 2020-11-01
description Abstract Background Gliomas evade current therapies through primary and acquired resistance and the effect of temozolomide is mainly restricted to methylguanin‐O6-methyltransferase promoter (MGMT) promoter hypermethylated tumors. Further resistance markers are largely unknown and would help for better stratification. Methods Clinical data and methylation profiles from the NOA‐08 (104, elderly glioblastoma) and the EORTC 26101 (297, glioblastoma) studies and 398 patients with glioblastoma from the Heidelberg Neuro‐Oncology center have been analyzed focused on the predictive effect of DNA damage response (DDR) gene methylation. Candidate genes were validated in vitro. Results Twenty‐eight glioblastoma 5'‐cytosine‐phosphat‐guanine‐3' (CpGs) from 17 DDR genes negatively correlated with expression and were used together with telomerase reverse transcriptase (TERT) promoter mutations in further analysis. CpG methylation of DDR genes shows highest association with the mesenchymal (MES) and receptor tyrosine kinase (RTK) II glioblastoma subgroup. MES tumors have lower tumor purity compared to RTK I and II subgroup tumors. CpG hypomethylation of DDR genes TP73 and PRPF19 correlated with worse patient survival in particular in MGMT promoter unmethylated tumors. TERT promoter mutation is most frequent in RTK I and II subtypes and associated with worse survival. Primary glioma cells show methylation patterns that resemble RTK I and II glioblastoma and long term established glioma cell lines do not match with glioblastoma subtypes. Silencing of selected resistance genes PRPF19 and TERT increase sensitivity to temozolomide in vitro. Conclusion Hypomethylation of DDR genes and TERT promoter mutations is associated with worse tumor prognosis, dependent on the methylation cluster and MGMT promoter methylation status in IDH wild‐type glioblastoma.
url https://doi.org/10.1002/cam4.3447
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spelling doaj-c172af256fd74be38c24abc7248654c92020-11-25T04:09:57ZengWileyCancer Medicine2045-76342020-11-019228373838510.1002/cam4.3447Methylome analyses of three glioblastoma cohorts reveal chemotherapy sensitivity markers within DDR genesTobias Kessler0Anne Berberich1Ahmed Sadik2Felix Sahm3Thierry Gorlia4Christoph Meisner5Dirk C. Hoffmann6Antje Wick7Philipp Kickingereder8Petra Rübmann9Martin Bendszus10Christiane Opitz11Michael Weller12Martin van denBent13Roger Stupp14Frank Winkler15Alba Brandes16Andreas vonDeimling17Michael Platten18Wolfgang Wick19Clinical Cooperation Unit Neurooncology German Cancer Consortium (DKTK) German Cancer Research Center (DKFZ) Heidelberg GermanyClinical Cooperation Unit Neurooncology German Cancer Consortium (DKTK) German Cancer Research Center (DKFZ) Heidelberg GermanyBrain Tumor Metabolism DKTK DKFZ Heidelberg GermanyDepartment of Neuropathology Heidelberg University Hospital Heidelberg GermanyEuropean Organization for Research and Treatment of Cancer Headquarters Brussels BelgiumInstitute for Clinical Epidemiology and Biometry Tübingen GermanyClinical Cooperation Unit Neurooncology German Cancer Consortium (DKTK) German Cancer Research Center (DKFZ) Heidelberg GermanyDepartment of Neurology and Neurooncology Program of the National Center for Tumor Diseases Heidelberg University Hospital Heidelberg GermanyDepartment of Neuroradiology Heidelberg University Hospital Heidelberg GermanyClinical Cooperation Unit Neurooncology German Cancer Consortium (DKTK) German Cancer Research Center (DKFZ) Heidelberg GermanyDepartment of Neuroradiology Heidelberg University Hospital Heidelberg GermanyBrain Tumor Metabolism DKTK DKFZ Heidelberg GermanyDepartment of Neurology University Hospital and University of Zurich Zurich SwitzerlandThe Brain Tumor Center Erasmus MC Cancer Institute Rotterdam The NetherlandsFeinberg School of Medicine Northwestern University Chicago IL USAClinical Cooperation Unit Neurooncology German Cancer Consortium (DKTK) German Cancer Research Center (DKFZ) Heidelberg GermanyDepartment of Medical Oncology Azienda USL‐IRCCS Institute of Neurological Sciences Bologna ItalyDepartment of Neuropathology Heidelberg University Hospital Heidelberg GermanyClinical Cooperation Unit Neuroimmunology and Brain Tumor Immunology DKTK DKFZ Heidelberg GermanyClinical Cooperation Unit Neurooncology German Cancer Consortium (DKTK) German Cancer Research Center (DKFZ) Heidelberg GermanyAbstract Background Gliomas evade current therapies through primary and acquired resistance and the effect of temozolomide is mainly restricted to methylguanin‐O6-methyltransferase promoter (MGMT) promoter hypermethylated tumors. Further resistance markers are largely unknown and would help for better stratification. Methods Clinical data and methylation profiles from the NOA‐08 (104, elderly glioblastoma) and the EORTC 26101 (297, glioblastoma) studies and 398 patients with glioblastoma from the Heidelberg Neuro‐Oncology center have been analyzed focused on the predictive effect of DNA damage response (DDR) gene methylation. Candidate genes were validated in vitro. Results Twenty‐eight glioblastoma 5'‐cytosine‐phosphat‐guanine‐3' (CpGs) from 17 DDR genes negatively correlated with expression and were used together with telomerase reverse transcriptase (TERT) promoter mutations in further analysis. CpG methylation of DDR genes shows highest association with the mesenchymal (MES) and receptor tyrosine kinase (RTK) II glioblastoma subgroup. MES tumors have lower tumor purity compared to RTK I and II subgroup tumors. CpG hypomethylation of DDR genes TP73 and PRPF19 correlated with worse patient survival in particular in MGMT promoter unmethylated tumors. TERT promoter mutation is most frequent in RTK I and II subtypes and associated with worse survival. Primary glioma cells show methylation patterns that resemble RTK I and II glioblastoma and long term established glioma cell lines do not match with glioblastoma subtypes. Silencing of selected resistance genes PRPF19 and TERT increase sensitivity to temozolomide in vitro. Conclusion Hypomethylation of DDR genes and TERT promoter mutations is associated with worse tumor prognosis, dependent on the methylation cluster and MGMT promoter methylation status in IDH wild‐type glioblastoma.https://doi.org/10.1002/cam4.3447

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