Stability of the CpG island methylator phenotype during glioma progression and identification of methylated loci in secondary glioblastomas
Grade IV glioblastomas exist in two forms, primary (de novo) glioblastomas (pGBM) that arise without precursor lesions, and the less common secondary glioblastomas (sGBM) which develop from earlier lower grade lesions. Genetic heterogeneity between pGBM and sGBM has been documented as have differenc...
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| Published in | BMC cancer Vol. 14; no. 1; p. 506 |
|---|---|
| Main Authors | , , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
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BioMed Central
10.07.2014
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| Abstract | Grade IV glioblastomas exist in two forms, primary (de novo) glioblastomas (pGBM) that arise without precursor lesions, and the less common secondary glioblastomas (sGBM) which develop from earlier lower grade lesions. Genetic heterogeneity between pGBM and sGBM has been documented as have differences in the methylation of individual genes. A hypermethylator phenotype in grade IV GBMs is now well documented however there has been little comparison between global methylation profiles of pGBM and sGBM samples or of methylation profiles between paired early and late sGBM samples.
We performed genome-wide methylation profiling of 20 matched pairs of early and late gliomas using the Infinium HumanMethylation450 BeadChips to assess methylation at >485,000 cytosine positions within the human genome.
Clustering of our data demonstrated a frequent hypermethylator phenotype that associated with IDH1 mutation in sGBM tumors. In 80% of cases, the hypermethylator status was retained in both the early and late tumor of the same patient, indicating limited alterations to genome-wide methylation during progression and that the CIMP phenotype is an early event. Analysis of hypermethylated loci identified 218 genes frequently methylated across grade II, III and IV tumors indicating a possible role in sGBM tumorigenesis. Comparison of our sGBM data with TCGA pGBM data indicate that IDH1 mutated GBM samples have very similar hypermethylator phenotypes, however the methylation profiles of the majority of samples with WT IDH1 that do not demonstrate a hypermethylator phenotype cluster separately from sGBM samples, indicating underlying differences in methylation profiles. We also identified 180 genes that were methylated only in sGBM. Further analysis of these genes may lead to a better understanding of the pathology of sGBM vs pGBM.
This is the first study to have documented genome-wide methylation changes within paired early/late astrocytic gliomas on such a large CpG probe set, revealing a number of genes that maybe relevant to secondary gliomagenesis. |
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| AbstractList | Grade IV glioblastomas exist in two forms, primary (de novo) glioblastomas (pGBM) that arise without precursor lesions, and the less common secondary glioblastomas (sGBM) which develop from earlier lower grade lesions. Genetic heterogeneity between pGBM and sGBM has been documented as have differences in the methylation of individual genes. A hypermethylator phenotype in grade IV GBMs is now well documented however there has been little comparison between global methylation profiles of pGBM and sGBM samples or of methylation profiles between paired early and late sGBM samples.
We performed genome-wide methylation profiling of 20 matched pairs of early and late gliomas using the Infinium HumanMethylation450 BeadChips to assess methylation at >485,000 cytosine positions within the human genome.
Clustering of our data demonstrated a frequent hypermethylator phenotype that associated with IDH1 mutation in sGBM tumors. In 80% of cases, the hypermethylator status was retained in both the early and late tumor of the same patient, indicating limited alterations to genome-wide methylation during progression and that the CIMP phenotype is an early event. Analysis of hypermethylated loci identified 218 genes frequently methylated across grade II, III and IV tumors indicating a possible role in sGBM tumorigenesis. Comparison of our sGBM data with TCGA pGBM data indicate that IDH1 mutated GBM samples have very similar hypermethylator phenotypes, however the methylation profiles of the majority of samples with WT IDH1 that do not demonstrate a hypermethylator phenotype cluster separately from sGBM samples, indicating underlying differences in methylation profiles. We also identified 180 genes that were methylated only in sGBM. Further analysis of these genes may lead to a better understanding of the pathology of sGBM vs pGBM.
This is the first study to have documented genome-wide methylation changes within paired early/late astrocytic gliomas on such a large CpG probe set, revealing a number of genes that maybe relevant to secondary gliomagenesis. Doc number: 506 Abstract Background: Grade IV glioblastomas exist in two forms, primary (de novo ) glioblastomas (pGBM) that arise without precursor lesions, and the less common secondary glioblastomas (sGBM) which develop from earlier lower grade lesions. Genetic heterogeneity between pGBM and sGBM has been documented as have differences in the methylation of individual genes. A hypermethylator phenotype in grade IV GBMs is now well documented however there has been little comparison between global methylation profiles of pGBM and sGBM samples or of methylation profiles between paired early and late sGBM samples. Methods: We performed genome-wide methylation profiling of 20 matched pairs of early and late gliomas using the Infinium HumanMethylation450 BeadChips to assess methylation at >485,000 cytosine positions within the human genome. Results: Clustering of our data demonstrated a frequent hypermethylator phenotype that associated with IDH1 mutation in sGBM tumors. In 80% of cases, the hypermethylator status was retained in both the early and late tumor of the same patient, indicating limited alterations to genome-wide methylation during progression and that the CIMP phenotype is an early event. Analysis of hypermethylated loci identified 218 genes frequently methylated across grade II, III and IV tumors indicating a possible role in sGBM tumorigenesis. Comparison of our sGBM data with TCGA pGBM data indicate that IDH1 mutated GBM samples have very similar hypermethylator phenotypes, however the methylation profiles of the majority of samples with WT IDH1 that do not demonstrate a hypermethylator phenotype cluster separately from sGBM samples, indicating underlying differences in methylation profiles. We also identified 180 genes that were methylated only in sGBM. Further analysis of these genes may lead to a better understanding of the pathology of sGBM vs pGBM. Conclusion: This is the first study to have documented genome-wide methylation changes within paired early/late astrocytic gliomas on such a large CpG probe set, revealing a number of genes that maybe relevant to secondary gliomagenesis. BACKGROUNDGrade IV glioblastomas exist in two forms, primary (de novo) glioblastomas (pGBM) that arise without precursor lesions, and the less common secondary glioblastomas (sGBM) which develop from earlier lower grade lesions. Genetic heterogeneity between pGBM and sGBM has been documented as have differences in the methylation of individual genes. A hypermethylator phenotype in grade IV GBMs is now well documented however there has been little comparison between global methylation profiles of pGBM and sGBM samples or of methylation profiles between paired early and late sGBM samples. METHODSWe performed genome-wide methylation profiling of 20 matched pairs of early and late gliomas using the Infinium HumanMethylation450 BeadChips to assess methylation at >485,000 cytosine positions within the human genome. RESULTSClustering of our data demonstrated a frequent hypermethylator phenotype that associated with IDH1 mutation in sGBM tumors. In 80% of cases, the hypermethylator status was retained in both the early and late tumor of the same patient, indicating limited alterations to genome-wide methylation during progression and that the CIMP phenotype is an early event. Analysis of hypermethylated loci identified 218 genes frequently methylated across grade II, III and IV tumors indicating a possible role in sGBM tumorigenesis. Comparison of our sGBM data with TCGA pGBM data indicate that IDH1 mutated GBM samples have very similar hypermethylator phenotypes, however the methylation profiles of the majority of samples with WT IDH1 that do not demonstrate a hypermethylator phenotype cluster separately from sGBM samples, indicating underlying differences in methylation profiles. We also identified 180 genes that were methylated only in sGBM. Further analysis of these genes may lead to a better understanding of the pathology of sGBM vs pGBM. CONCLUSIONThis is the first study to have documented genome-wide methylation changes within paired early/late astrocytic gliomas on such a large CpG probe set, revealing a number of genes that maybe relevant to secondary gliomagenesis. |
| ArticleNumber | 506 |
| Author | Wei, Wenbin Schackert, Gabriele Krex, Dietmar Ricketts, Christopher J Shinawi, Thoraia Latif, Farida Bauer, Julien Cruickshank, Garth Hill, Victoria K Maher, Eamonn R |
| AuthorAffiliation | 4 School of Cancer Sciences, University of Birmingham, Birmingham, UK 1 Centre for Rare Diseases and Personalised Medicine and Department of Medical & Molecular Genetics, School of Clinical and Experimental Medicine, University of Birmingham College of Medical and Dental Sciences, Edgbaston, Birmingham, UK 3 Department of Pathology, University of Cambridge, Tennis Court Road, Cambridge CB2 1QP, UK 5 Department of Neurosurgery, University of Birmingham and Queen Elizabeth Hospital Birmingham, Birmingham, UK 2 Department of Neurosurgery, University Hospital Carl Gustav Carus Dresden, Technical University of Dresden, Dresden, Germany |
| AuthorAffiliation_xml | – name: 1 Centre for Rare Diseases and Personalised Medicine and Department of Medical & Molecular Genetics, School of Clinical and Experimental Medicine, University of Birmingham College of Medical and Dental Sciences, Edgbaston, Birmingham, UK – name: 3 Department of Pathology, University of Cambridge, Tennis Court Road, Cambridge CB2 1QP, UK – name: 2 Department of Neurosurgery, University Hospital Carl Gustav Carus Dresden, Technical University of Dresden, Dresden, Germany – name: 4 School of Cancer Sciences, University of Birmingham, Birmingham, UK – name: 5 Department of Neurosurgery, University of Birmingham and Queen Elizabeth Hospital Birmingham, Birmingham, UK |
| Author_xml | – sequence: 1 givenname: Victoria K surname: Hill fullname: Hill, Victoria K – sequence: 2 givenname: Thoraia surname: Shinawi fullname: Shinawi, Thoraia – sequence: 3 givenname: Christopher J surname: Ricketts fullname: Ricketts, Christopher J – sequence: 4 givenname: Dietmar surname: Krex fullname: Krex, Dietmar – sequence: 5 givenname: Gabriele surname: Schackert fullname: Schackert, Gabriele – sequence: 6 givenname: Julien surname: Bauer fullname: Bauer, Julien – sequence: 7 givenname: Wenbin surname: Wei fullname: Wei, Wenbin – sequence: 8 givenname: Garth surname: Cruickshank fullname: Cruickshank, Garth – sequence: 9 givenname: Eamonn R surname: Maher fullname: Maher, Eamonn R – sequence: 10 givenname: Farida surname: Latif fullname: Latif, Farida email: f.latif@bham.ac.uk organization: Centre for Rare Diseases and Personalised Medicine and Department of Medical & Molecular Genetics, School of Clinical and Experimental Medicine, University of Birmingham College of Medical and Dental Sciences, Edgbaston, Birmingham, UK. f.latif@bham.ac.uk |
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| CitedBy_id | crossref_primary_10_1007_s00401_020_02209_8 crossref_primary_10_1134_S0026893316060169 crossref_primary_10_1016_j_gene_2016_12_018 crossref_primary_10_1016_j_ccell_2015_07_012 crossref_primary_10_1016_j_gene_2015_10_059 crossref_primary_10_1111_jcmm_16536 crossref_primary_10_1016_j_ebiom_2017_02_025 crossref_primary_10_1007_s11060_015_1869_z crossref_primary_10_1038_s41375_018_0084_2 crossref_primary_10_3892_mmr_2015_4241 crossref_primary_10_1016_j_biopha_2017_02_083 crossref_primary_10_1016_j_cancergen_2021_10_008 crossref_primary_10_1093_bfgp_elw019 crossref_primary_10_2176_nmc_ra_2015_0322 |
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| Copyright | 2014 Hill et al.; licensee BioMed Central Ltd. This is an Open Access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/2.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly credited. The Creative Commons Public Domain Dedication waiver (http://creativecommons.org/publicdomain/zero/1.0/) applies to the data made available in this article, unless otherwise stated. Copyright © 2014 Hill et al.; licensee BioMed Central Ltd. 2014 Hill et al.; licensee BioMed Central Ltd. |
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| Snippet | Grade IV glioblastomas exist in two forms, primary (de novo) glioblastomas (pGBM) that arise without precursor lesions, and the less common secondary... Doc number: 506 Abstract Background: Grade IV glioblastomas exist in two forms, primary (de novo ) glioblastomas (pGBM) that arise without precursor lesions,... BACKGROUNDGrade IV glioblastomas exist in two forms, primary (de novo) glioblastomas (pGBM) that arise without precursor lesions, and the less common secondary... |
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| SubjectTerms | Bias Bioinformatics Cancer CpG Islands Deoxyribonucleic acid Disease Progression DNA DNA Methylation Epigenetics Gene expression Genetic testing Genome, Human Genomes Genomics Genotype & phenotype Glioblastoma - genetics Glioblastoma - pathology Hospitals Humans Isocitrate Dehydrogenase - genetics Mutation Neurosurgery Patients Phenotype Studies Tumors |
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| Title | Stability of the CpG island methylator phenotype during glioma progression and identification of methylated loci in secondary glioblastomas |
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