Your search keyword '"Wick W."' showing total 62 results

1. Epigenetic landscape reorganisation and reactivation of embryonic development genes are associated with malignancy in IDH-mutant astrocytoma.

Author

Ghisai SA, van Hijfte L, Vallentgoed WR, Tesileanu CMS, de Heer I, Kros JM, Sanson M, Gorlia T, Wick W, Vogelbaum MA, Brandes AA, Franceschi E, Clement PM, Nowak AK, Golfinopoulos V, van den Bent MJ, French PJ, and Hoogstrate Y

Subjects

Humans, Female, Male, Embryonic Development genetics, Middle Aged, Adult, Neoplasm Grading, Astrocytoma genetics, Astrocytoma pathology, Isocitrate Dehydrogenase genetics, Brain Neoplasms genetics, Brain Neoplasms pathology, DNA Methylation genetics, Mutation genetics, Epigenesis, Genetic genetics

Abstract

Accurate grading of IDH-mutant gliomas defines patient prognosis and guides the treatment path. Histological grading is challenging, and aside from CDKN2A/B homozygous deletions in IDH-mutant astrocytomas, there are no other objective molecular markers used for grading. RNA-sequencing was conducted on primary IDH-mutant astrocytomas (n = 138) included in the prospective CATNON trial, which was performed to assess the prognostic effect of adjuvant and concurrent temozolomide. We integrated the RNA-sequencing data with matched DNA-methylation and NGS data. We also used multi-omics data from IDH-mutant astrocytomas included in the TCGA dataset and validated results on matched primary and recurrent samples from the GLASS-NL study. Since discrete classes do not adequately capture grading of these tumours, we utilised DNA-methylation profiles to generate a Continuous Grading Coefficient (CGC) based on classification scores from a CNS-tumour classifier. CGC was an independent predictor of survival outperforming current WHO-CNS5 and methylation-based classification. Our RNA-sequencing analysis revealed four distinct transcription clusters that were associated with (i) upregulation of cell cycling genes; (ii) downregulation of glial differentiation genes; (iii) upregulation of embryonic development genes (e.g. HOX, PAX, and TBX) and (iv) upregulation of extracellular matrix genes. The upregulation of embryonic development genes was associated with a specific increase of CpG island methylation near these genes. Higher grade IDH-mutant astrocytomas have DNA-methylation signatures that, on the RNA level, are associated with increased cell cycling, tumour cell de-differentiation and extracellular matrix remodelling. These combined molecular signatures can serve as an objective marker for grading of IDH-mutant astrocytomas., (© 2024. The Author(s).)

Published

2024

2. Loss over 5% of chromosome 1p is a clinically relevant and applicable cut-off for increased risk of recurrence in meningioma.

Author

Maas SLN, Hielscher T, Sievers P, Hovestadt V, Suwala AK, Acker T, Weller M, Preusser M, Herold-Mende C, Wick W, von Deimling A, Berghaus N, and Sahm F

Subjects

Humans, Female, Male, Middle Aged, Aged, Chromosome Deletion, Adult, Meningioma genetics, Meningioma pathology, Chromosomes, Human, Pair 1 genetics, Meningeal Neoplasms genetics, Meningeal Neoplasms pathology, Neoplasm Recurrence, Local genetics, Neoplasm Recurrence, Local pathology

Published

2024

3. Identification of a putative molecular subtype of adult-type diffuse astrocytoma with recurrent MAPK pathway alterations.

Author

Sievers P, Bielle F, Göbel K, Schrimpf D, Nichelli L, Mathon B, Appay R, Boldt HB, Dohmen H, Selignow C, Acker T, Vicha A, Martinetto H, Schweizer L, Schüller U, Brandner S, Wesseling P, Schmid S, Capper D, Abdullaev Z, Aldape K, Korshunov A, Krieg SM, Wick W, Pfister SM, von Deimling A, Reuss DE, Jones DTW, and Sahm F

Subjects

Humans, Adult, Male, Female, Middle Aged, Mutation genetics, Astrocytoma genetics, Astrocytoma pathology, Brain Neoplasms genetics, Brain Neoplasms pathology, MAP Kinase Signaling System physiology, MAP Kinase Signaling System genetics

Published

2024

4. Genetical and epigenetical profiling identifies two subgroups of pineal parenchymal tumors of intermediate differentiation (PPTID) with distinct molecular, histological and clinical characteristics.

Author

Rahmanzade R, Pfaff E, Banan R, Sievers P, Suwala AK, Hinz F, Bogumil H, Cherkezov A, Kaan AF, Schrimpf D, Friedel D, Göbel K, Keller F, Saenz-Sardà X, Lossos A, Sill M, Witt O, Sakowitz OW, Korshunov A, Reuss DE, Etminan N, Unterberg A, Ratliff M, Herold-Mende C, Wick W, Pfister SM, von Deimling A, Jones DTW, and Sahm F

Subjects

Humans, Pinealoma genetics, Pinealoma pathology, Pineal Gland pathology, Brain Neoplasms genetics, Brain Neoplasms pathology

Published

2023

5. [Comparison of acute stroke care pathways-A qualitative multicenter study in three referring hospitals of a stroke network].

Author

Herzog F, Sert M, Hoffmann J, Stang C, Seker F, Purrucker J, Wick W, Busetto L, and Gumbinger C

Subjects

Humans, Critical Pathways, Hospitals, Thrombectomy, Stroke diagnosis, Stroke therapy, Emergency Medical Services

Abstract

Background: In stroke networks, hospitals that do not provide thrombectomy (referring hospitals) refer patients to specialized hospitals (receiving hospitals) for this specific intervention. In order to improve the access and management of thrombectomy, the focus of research needs to be not only on the receiving hospitals but also on the prior stroke care pathways in referring hospitals., Objective: The purpose of this study was to investigate the stroke care pathways in different referring hospitals as well as the advantages and disadvantages associated with these pathways., Methods: A qualitative multicenter study was carried out in three referring hospitals of a stroke network. Stroke care was assessed and analyzed by using non-participant observations and 15 semi-structured interviews with employees in various health professions., Results: The following aspects were reported as advantageous within the stroke care pathways: (1) a structured and personal prenotification of the patient by the emergency medical service (EMS) members; (2) a more efficiently organized teleneurology workflow; (3) the provision of the secondary referral to thrombectomy by the same EMS members of the primary referral and (4) the integration of external neurologists into in-house structures., Conclusion: The study provides insights into different stroke care pathways of three different referring hospitals of a stroke network. The results can be used to derive potentials for improvement of other referring hospitals; however, this study is too small to provide reliable information about their potential effectiveness. Future studies should investigate whether implementation of these recommendations actually leads to improvements and under which conditions they are successful. To ensure patient-centeredness, the perspectives of patients and relatives should also be included., (© 2023. The Author(s).)

Published

2023

6. Integrated genetic analyses of immunodeficiency-associated Epstein-Barr virus- (EBV) positive primary CNS lymphomas.

Author

Kaulen LD, Denisova E, Hinz F, Hai L, Friedel D, Henegariu O, Hoffmann DC, Ito J, Kourtesakis A, Lehnert P, Doubrovinskaia S, Karschnia P, von Baumgarten L, Kessler T, Baehring JM, Brors B, Sahm F, and Wick W

Subjects

Humans, Herpesvirus 4, Human genetics, Mutation, Prognosis, Tumor Microenvironment, Epstein-Barr Virus Infections genetics, Epstein-Barr Virus Infections metabolism, Lymphoma genetics

Abstract

Immunodeficiency-associated primary CNS lymphoma (PCNSL) represents a distinct clinicopathological entity, which is typically Epstein-Barr virus-positive (EBV + ) and carries an inferior prognosis. Genetic alterations that characterize EBV-related CNS lymphomagenesis remain unclear precluding molecular classification and targeted therapies. In this study, a comprehensive genetic analysis of 22 EBV +  PCNSL, therefore, integrated clinical and pathological information with exome and RNA sequencing (RNASeq) data. EBV +  PCNSL with germline controls carried a median of 55 protein-coding single nucleotide variants (SNVs; range 24-217) and 2 insertions/deletions (range 0-22). Genetic landscape was largely shaped by aberrant somatic hypermutation with a median of 41.01% (range 31.79-53.49%) of SNVs mapping to its target motifs. Tumors lacked established SNVs (MYD88, CD79B, PIM1) and copy number variants (CDKN2A, HLA loss) driving EBV -  PCNSL. Instead, EBV +  PCNSL were characterized by SOCS1 mutations (26%), predicted to disinhibit JAK/STAT signaling, and mutually exclusive gain-of-function NOTCH pathway SNVs (26%). Copy number gains were enriched on 11q23.3, a locus directly targeted for chromosomal aberrations by EBV, that includes SIK3 known to protect from cytotoxic T-cell responses. Losses covered 5q31.2 (STING), critical for sensing viral DNA, and 17q11 (NF1). Unsupervised clustering of RNASeq data revealed two distinct transcriptional groups, that shared strong expression of CD70 and IL1R2, previously linked to tolerogenic tumor microenvironments. Correspondingly, deconvolution of bulk RNASeq data revealed elevated M2-macrophage, T-regulatory cell, mast cell and monocyte fractions in EBV +  PCNSL. In addition to novel insights into the pathobiology of EBV +  PCNSL, the data provide the rationale for the exploration of targeted therapies including JAK-, NOTCH- and CD70-directed approaches., (© 2023. The Author(s).)

Published

2023

7. Glioneuronal tumor with ATRX alteration, kinase fusion and anaplastic features (GTAKA): a molecularly distinct brain tumor type with recurrent NTRK gene fusions.

Author

Bogumil H, Sill M, Schrimpf D, Ismer B, Blume C, Rahmanzade R, Hinz F, Cherkezov A, Banan R, Friedel D, Reuss DE, Selt F, Ecker J, Milde T, Pajtler KW, Schittenhelm J, Hench J, Frank S, Boldt HB, Kristensen BW, Scheie D, Melchior LC, Olesen V, Sehested A, Boué DR, Abdullaev Z, Satgunaseelan L, Kurth I, Seidlitz A, White CL, Ng HK, Shi ZF, Haberler C, Deckert M, Timmer M, Goldbrunner R, Tauziède-Espariat A, Varlet P, Brandner S, Alexandrescu S, Snuderl M, Aldape K, Korshunov A, Witt O, Herold-Mende C, Unterberg A, Wick W, Pfister SM, von Deimling A, Jones DTW, Sahm F, and Sievers P

Subjects

Humans, Young Adult, Biomarkers, Tumor genetics, Brain pathology, Gene Fusion, Receptor Protein-Tyrosine Kinases genetics, X-linked Nuclear Protein genetics, Brain Neoplasms genetics, Brain Neoplasms pathology, Central Nervous System Neoplasms, Neoplasms, Neuroepithelial genetics, Neoplasms, Neuroepithelial pathology

Abstract

Glioneuronal tumors are a heterogenous group of CNS neoplasms that can be challenging to accurately diagnose. Molecular methods are highly useful in classifying these tumors-distinguishing precise classes from their histological mimics and identifying previously unrecognized types of tumors. Using an unsupervised visualization approach of DNA methylation data, we identified a novel group of tumors (n = 20) that formed a cluster separate from all established CNS tumor types. Molecular analyses revealed ATRX alterations (in 16/16 cases by DNA sequencing and/or immunohistochemistry) as well as potentially targetable gene fusions involving receptor tyrosine-kinases (RTK; mostly NTRK1-3) in all of these tumors (16/16; 100%). In addition, copy number profiling showed homozygous deletions of CDKN2A/B in 55% of cases. Histological and immunohistochemical investigations revealed glioneuronal tumors with isomorphic, round and often condensed nuclei, perinuclear clearing, high mitotic activity and microvascular proliferation. Tumors were mainly located supratentorially (84%) and occurred in patients with a median age of 19 years. Survival data were limited (n = 18) but point towards a more aggressive biology as compared to other glioneuronal tumors (median progression-free survival 12.5 months). Given their molecular characteristics in addition to anaplastic features, we suggest the term glioneuronal tumor with ATRX alteration, kinase fusion and anaplastic features (GTAKA) to describe these tumors. In summary, our findings highlight a novel type of glioneuronal tumor driven by different RTK fusions accompanied by recurrent alterations in ATRX and homozygous deletions of CDKN2A/B. Targeted approaches such as NTRK inhibition might represent a therapeutic option for patients suffering from these tumors., (© 2023. The Author(s).)

Published

2023

8. Epigenetic profiling reveals a subset of pediatric-type glioneuronal tumors characterized by oncogenic gene fusions involving several targetable kinases.

Author

Sievers P, Sill M, Schrimpf D, Friedel D, Sturm D, Gardberg M, Kurian KM, Krskova L, Vicha A, Schaller T, Hagel C, Abdullaev Z, Aldape K, Jacques TS, Korshunov A, Wick W, Pfister SM, von Deimling A, Jones DTW, and Sahm F

Subjects

Child, Epigenesis, Genetic genetics, Gene Fusion, Humans, Oncogene Fusion, Neoplasms, Neuroepithelial genetics, Neoplasms, Neuroepithelial pathology

Published

2022

9. Single-cell DNA sequencing reveals order of mutational acquisition in TRAF7/AKT1 and TRAF7/KLF4 mutant meningiomas.

Author

Dogan H, Blume C, Patel A, Jungwirth G, Sogerer L, Ratliff M, Ketter R, Herold-Mende C, Jones DTW, Wick W, Vollmuth P, Zweckberger K, Reuss D, von Deimling A, and Sahm F

Subjects

Humans, Mutation genetics, Proto-Oncogene Proteins c-akt genetics, Proto-Oncogene Proteins c-akt metabolism, Sequence Analysis, DNA, Tumor Necrosis Factor Receptor-Associated Peptides and Proteins genetics, Meningeal Neoplasms genetics, Meningioma genetics

Published

2022

10. [Disruptive innovations in neuromedicine].

Author

Wick W

Published

2022

11. DNA-methylome-assisted classification of patients with poor prognostic subventricular zone associated IDH-wildtype glioblastoma.

Author

Adeberg S, Knoll M, Koelsche C, Bernhardt D, Schrimpf D, Sahm F, König L, Harrabi SB, Hörner-Rieber J, Verma V, Bewerunge-Hudler M, Unterberg A, Sturm D, Jungk C, Herold-Mende C, Wick W, von Deimling A, Debus J, Rieken S, and Abdollahi A

Subjects

Adaptor Proteins, Signal Transducing genetics, DNA Copy Number Variations, Epigenome, Eye Proteins genetics, Humans, Intracellular Signaling Peptides and Proteins genetics, Lateral Ventricles diagnostic imaging, Lateral Ventricles pathology, Prognosis, Retrospective Studies, Brain Neoplasms diagnostic imaging, Brain Neoplasms genetics, Brain Neoplasms pathology, Glioblastoma diagnostic imaging, Glioblastoma genetics, Glioblastoma pathology

Abstract

Glioblastoma (GBM) derived from the "stem cell" rich subventricular zone (SVZ) may constitute a therapy-refractory subgroup of tumors associated with poor prognosis. Risk stratification for these cases is necessary but is curtailed by error prone imaging-based evaluation. Therefore, we aimed to establish a robust DNA methylome-based classification of SVZ GBM and subsequently decipher underlying molecular characteristics. MRI assessment of SVZ association was performed in a retrospective training set of IDH-wildtype GBM patients (n = 54) uniformly treated with postoperative chemoradiotherapy. DNA isolated from FFPE samples was subject to methylome and copy number variation (CNV) analysis using Illumina Platform and cnAnalysis450k package. Deep next-generation sequencing (NGS) of a panel of 130 GBM-related genes was conducted (Agilent SureSelect/Illumina). Methylome, transcriptome, CNV, MRI, and mutational profiles of SVZ GBM were further evaluated in a confirmatory cohort of 132 patients (TCGA/TCIA). A 15 CpG SVZ methylation signature (SVZM) was discovered based on clustering and random forest analysis. One third of CpG in the SVZM were associated with MAB21L2/LRBA. There was a 14.8% (n = 8) discordance between SVZM vs. MRI classification. Re-analysis of these patients favored SVZM classification with a hazard ratio (HR) for OS of 2.48 [95% CI 1.35-4.58], p = 0.004 vs. 1.83 [1.0-3.35], p = 0.049 for MRI classification. In the validation cohort, consensus MRI based assignment was achieved in 62% of patients with an intraclass correlation (ICC) of 0.51 and non-significant HR for OS (2.03 [0.81-5.09], p = 0.133). In contrast, SVZM identified two prognostically distinct subgroups (HR 3.08 [1.24-7.66], p = 0.016). CNV alterations revealed loss of chromosome 10 in SVZM- and gains on chromosome 19 in SVZM- tumors. SVZM- tumors were also enriched for differentially mutated genes (p < 0.001). In summary, SVZM classification provides a novel means for stratifying GBM patients with poor prognosis and deciphering molecular mechanisms governing aggressive tumor phenotypes., (© 2022. The Author(s).)

Published

2022

12. Rapid-CNS 2 : rapid comprehensive adaptive nanopore-sequencing of CNS tumors, a proof-of-concept study.

Author

Patel A, Dogan H, Payne A, Krause E, Sievers P, Schoebe N, Schrimpf D, Blume C, Stichel D, Holmes N, Euskirchen P, Hench J, Frank S, Rosenstiel-Goidts V, Ratliff M, Etminan N, Unterberg A, Dieterich C, Herold-Mende C, Pfister SM, Wick W, Loose M, von Deimling A, Sill M, Jones DTW, Schlesner M, and Sahm F

Subjects

High-Throughput Nucleotide Sequencing, Humans, Proof of Concept Study, Sequence Analysis, DNA, Central Nervous System Neoplasms genetics, Nanopores

Published

2022

13. Oligosarcomas, IDH-mutant are distinct and aggressive.

Author

Suwala AK, Felix M, Friedel D, Stichel D, Schrimpf D, Hinz F, Hewer E, Schweizer L, Dohmen H, Pohl U, Staszewski O, Korshunov A, Stein M, Wongsurawat T, Cheunsuacchon P, Sathornsumetee S, Koelsche C, Turner C, Le Rhun E, Mühlebner A, Schucht P, Özduman K, Ono T, Shimizu H, Prinz M, Acker T, Herold-Mende C, Kessler T, Wick W, Capper D, Wesseling P, Sahm F, von Deimling A, Hartmann C, and Reuss DE

Subjects

Adult, Aged, Brain Neoplasms genetics, Female, Humans, Male, Middle Aged, Mutation, Oligodendroglioma genetics, Sarcoma genetics, Brain Neoplasms pathology, Isocitrate Dehydrogenase genetics, Oligodendroglioma pathology, Sarcoma pathology

Abstract

Oligodendrogliomas are defined at the molecular level by the presence of an IDH mutation and codeletion of chromosomal arms 1p and 19q. In the past, case reports and small studies described gliomas with sarcomatous features arising from oligodendrogliomas, so called oligosarcomas. Here, we report a series of 24 IDH-mutant oligosarcomas from 23 patients forming a distinct methylation class. The tumors were recurrences from prior oligodendrogliomas or developed de novo. Precursor tumors of 12 oligosarcomas were histologically and molecularly indistinguishable from conventional oligodendrogliomas. Oligosarcoma tumor cells were embedded in a dense network of reticulin fibers, frequently showing p53 accumulation, positivity for SMA and CALD1, loss of OLIG2 and gain of H3K27 trimethylation (H3K27me3) as compared to primary lesions. In 5 oligosarcomas no 1p/19q codeletion was detectable, although it was present in the primary lesions. Copy number neutral LOH was determined as underlying mechanism. Oligosarcomas harbored an increased chromosomal copy number variation load with frequent CDKN2A/B deletions. Proteomic profiling demonstrated oligosarcomas to be highly distinct from conventional CNS WHO grade 3 oligodendrogliomas with consistent evidence for a smooth muscle differentiation. Expression of several tumor suppressors was reduced with NF1 being lost frequently. In contrast, oncogenic YAP1 was aberrantly overexpressed in oligosarcomas. Panel sequencing revealed mutations in NF1 and TP53 along with IDH1/2 and TERT promoter mutations. Survival of patients was significantly poorer for oligosarcomas as first recurrence than for grade 3 oligodendrogliomas as first recurrence. These results establish oligosarcomas as a distinct group of IDH-mutant gliomas differing from conventional oligodendrogliomas on the histologic, epigenetic, proteomic, molecular and clinical level. The diagnosis can be based on the combined presence of (a) sarcomatous histology, (b) IDH-mutation and (c) TERT promoter mutation and/or 1p/19q codeletion, or, in unresolved cases, on its characteristic DNA methylation profile., (© 2021. The Author(s).)

Published

2022

14. GOPC:ROS1 and other ROS1 fusions represent a rare but recurrent drug target in a variety of glioma types.

Author

Sievers P, Stichel D, Sill M, Schrimpf D, Sturm D, Selt F, Ecker J, Kazdal D, Miele E, Kranendonk MEG, Tops BBJ, Kohlhof-Meinecke P, Beschorner R, Kramm CM, Hasselblatt M, Reifenberger G, Capper D, Wesseling P, Stenzinger A, Milde T, Korshunov A, Witt O, Pfister SM, Wick W, von Deimling A, Jones DTW, and Sahm F

Subjects

Humans, Molecular Targeted Therapy, Oncogene Fusion genetics, Oncogene Proteins, Fusion genetics, Adaptor Proteins, Signal Transducing genetics, Brain Neoplasms genetics, Glioma genetics, Golgi Matrix Proteins genetics, Protein-Tyrosine Kinases genetics, Proto-Oncogene Proteins genetics

Published

2021

15. Recurrent fusions in PLAGL1 define a distinct subset of pediatric-type supratentorial neuroepithelial tumors.

Author

Sievers P, Henneken SC, Blume C, Sill M, Schrimpf D, Stichel D, Okonechnikov K, Reuss DE, Benzel J, Maaß KK, Kool M, Sturm D, Zheng T, Ghasemi DR, Kohlhof-Meinecke P, Cruz O, Suñol M, Lavarino C, Ruf V, Boldt HB, Pagès M, Pouget C, Schweizer L, Kranendonk MEG, Akhtar N, Bunkowski S, Stadelmann C, Schüller U, Mueller WC, Dohmen H, Acker T, Harter PN, Mawrin C, Beschorner R, Brandner S, Snuderl M, Abdullaev Z, Aldape K, Gilbert MR, Armstrong TS, Ellison DW, Capper D, Ichimura K, Reifenberger G, Grundy RG, Jabado N, Krskova L, Zapotocky M, Vicha A, Varlet P, Wesseling P, Rutkowski S, Korshunov A, Wick W, Pfister SM, Jones DTW, von Deimling A, Pajtler KW, and Sahm F

Subjects

Child, Female, Humans, Male, Oncogene Fusion, Cell Cycle Proteins genetics, Ependymoma genetics, Supratentorial Neoplasms genetics, Transcription Factors genetics, Tumor Suppressor Proteins genetics

Abstract

Ependymomas encompass a heterogeneous group of central nervous system (CNS) neoplasms that occur along the entire neuroaxis. In recent years, extensive (epi-)genomic profiling efforts have identified several molecular groups of ependymoma that are characterized by distinct molecular alterations and/or patterns. Based on unsupervised visualization of a large cohort of genome-wide DNA methylation data, we identified a highly distinct group of pediatric-type tumors (n = 40) forming a cluster separate from all established CNS tumor types, of which a high proportion were histopathologically diagnosed as ependymoma. RNA sequencing revealed recurrent fusions involving the pleomorphic adenoma gene-like 1 (PLAGL1) gene in 19 of 20 of the samples analyzed, with the most common fusion being EWSR1:PLAGL1 (n = 13). Five tumors showed a PLAGL1:FOXO1 fusion and one a PLAGL1:EP300 fusion. High transcript levels of PLAGL1 were noted in these tumors, with concurrent overexpression of the imprinted genes H19 and IGF2, which are regulated by PLAGL1. Histopathological review of cases with sufficient material (n = 16) demonstrated a broad morphological spectrum of tumors with predominant ependymoma-like features. Immunohistochemically, tumors were GFAP positive and OLIG2- and SOX10 negative. In 3/16 of the cases, a dot-like positivity for EMA was detected. All tumors in our series were located in the supratentorial compartment. Median age of the patients at the time of diagnosis was 6.2 years. Median progression-free survival was 35 months (for 11 patients with data available). In summary, our findings suggest the existence of a novel group of supratentorial neuroepithelial tumors that are characterized by recurrent PLAGL1 fusions and enriched for pediatric patients., (© 2021. The Author(s).)

Published

2021

16. [Brain tumor immunotherapy-Possibilities and challenges of personalization].

Author

Platten M, Bunse L, and Wick W

Subjects

Brain, Humans, Immunologic Factors, Immunotherapy, Brain Neoplasms therapy

Abstract

Brain tumors represent a special interdisciplinary challenge in the treatment of neurological disorders. Insights into the interindividual as well as the spatial and temporal intraindividual heterogeneity require entirely new personalized treatment approaches. Particularly in the field of immunotherapy there are possibilities for targeted interventions and systematic follow-up for assessment of response to treatment. Although not yet integrated into the standard treatment, early clinical trials in recent years have shown the feasibility of systematic personalized treatment approaches. The conceptual and regulatory implications of these approaches reach far beyond the field of neuro-oncology., (© 2021. Springer Medizin Verlag GmbH, ein Teil von Springer Nature.)

Published

2021

17. Glioblastomas with primitive neuronal component harbor a distinct methylation and copy-number profile with inactivation of TP53, PTEN, and RB1.

Author

Suwala AK, Stichel D, Schrimpf D, Maas SLN, Sill M, Dohmen H, Banan R, Reinhardt A, Sievers P, Hinz F, Blattner-Johnson M, Hartmann C, Schweizer L, Boldt HB, Kristensen BW, Schittenhelm J, Wood MD, Chotard G, Bjergvig R, Das A, Tabori U, Hasselblatt M, Korshunov A, Abdullaev Z, Quezado M, Aldape K, Harter PN, Snuderl M, Hench J, Frank S, Acker T, Brandner S, Winkler F, Wesseling P, Pfister SM, Reuss DE, Wick W, von Deimling A, Jones DTW, and Sahm F

Subjects

Chromosomes, Human, Pair 1 genetics, Chromosomes, Human, Pair 7 genetics, Cohort Studies, Cyclin-Dependent Kinase Inhibitor p16 genetics, DNA Copy Number Variations, Female, Gene Deletion, Glial Fibrillary Acidic Protein biosynthesis, Glial Fibrillary Acidic Protein genetics, Humans, Male, Middle Aged, Brain Neoplasms genetics, Brain Neoplasms pathology, DNA Methylation, Glioblastoma genetics, Glioblastoma pathology, Neuroectodermal Tumors, Primitive genetics, Neuroectodermal Tumors, Primitive pathology, PTEN Phosphohydrolase genetics, Retinoblastoma Binding Proteins genetics, Tumor Suppressor Protein p53 genetics, Ubiquitin-Protein Ligases genetics

Abstract

Glioblastoma IDH-wildtype presents with a wide histological spectrum. Some features are so distinctive that they are considered as separate histological variants or patterns for the purpose of classification. However, these usually lack defined (epi-)genetic alterations or profiles correlating with this histology. Here, we describe a molecular subtype with overlap to the unique histological pattern of glioblastoma with primitive neuronal component. Our cohort consists of 63 IDH-wildtype glioblastomas that harbor a characteristic DNA methylation profile. Median age at diagnosis was 59.5 years. Copy-number variations and genetic sequencing revealed frequent alterations in TP53, RB1 and PTEN, with fewer gains of chromosome 7 and homozygous CDKN2A/B deletions than usually described for IDH-wildtype glioblastoma. Gains of chromosome 1 were detected in more than half of the cases. A poorly differentiated phenotype with frequent absence of GFAP expression, high proliferation index and strong staining for p53 and TTF1 often caused misleading histological classification as carcinoma metastasis or primitive neuroectodermal tumor. Clinically, many patients presented with leptomeningeal dissemination and spinal metastasis. Outcome was poor with a median overall survival of only 12 months. Overall, we describe a new molecular subtype of IDH-wildtype glioblastoma with a distinct histological appearance and genetic signature.

Published

2021

18. Non-IDH1-R132H IDH1/2 mutations are associated with increased DNA methylation and improved survival in astrocytomas, compared to IDH1-R132H mutations.

Author

Tesileanu CMS, Vallentgoed WR, Sanson M, Taal W, Clement PM, Wick W, Brandes AA, Baurain JF, Chinot OL, Wheeler H, Gill S, Griffin M, Rogers L, Rudà R, Weller M, McBain C, Reijneveld J, Enting RH, Caparrotti F, Lesimple T, Clenton S, Gijtenbeek A, Lim E, de Vos F, Mulholland PJ, Taphoorn MJB, de Heer I, Hoogstrate Y, de Wit M, Boggiani L, Venneker S, Oosting J, Bovée JVMG, Erridge S, Vogelbaum MA, Nowak AK, Mason WP, Kros JM, Wesseling P, Aldape K, Jenkins RB, Dubbink HJ, Baumert B, Golfinopoulos V, Gorlia T, van den Bent M, and French PJ

Subjects

Brain Neoplasms diagnosis, Humans, Prognosis, Survival Rate, Astrocytoma diagnosis, Astrocytoma genetics, Brain Neoplasms genetics, DNA Methylation genetics, Isocitrate Dehydrogenase genetics, Mutation

Abstract

Somatic mutations in the isocitrate dehydrogenase genes IDH1 and IDH2 occur at high frequency in several tumour types. Even though these mutations are confined to distinct hotspots, we show that gliomas are the only tumour type with an exceptionally high percentage of IDH1 R132H mutations. Patients harbouring IDH1 R132H mutated tumours have lower levels of genome-wide DNA-methylation, and an associated increased gene expression, compared to tumours with other IDH1/2 mutations ("non-R132H IDH1/2 mutations"). This reduced methylation is seen in multiple tumour types and thus appears independent of the site of origin. For 1p/19q non-codeleted glioma (astrocytoma) patients, we show that this difference is clinically relevant: in samples of the randomised phase III CATNON trial, patients harbouring tumours with IDH mutations other than IDH1 R132H have a better outcome (hazard ratio 0.41, 95% CI [0.24, 0.71], p = 0.0013). Such non-R132H IDH1/2-mutated tumours also had a significantly lower proportion of tumours assigned to prognostically poor DNA-methylation classes (p < 0.001). IDH mutation-type was independent in a multivariable model containing known clinical and molecular prognostic factors. To confirm these observations, we validated the prognostic effect of IDH mutation type on a large independent dataset. The observation that non-R132H IDH1/2-mutated astrocytomas have a more favourable prognosis than their IDH1 R132H mutated counterpart indicates that not all IDH-mutations are identical. This difference is clinically relevant and should be taken into account for patient prognostication.

Published

2021

19. Clear cell meningiomas are defined by a highly distinct DNA methylation profile and mutations in SMARCE1.

Author

Sievers P, Sill M, Blume C, Tauziede-Espariat A, Schrimpf D, Stichel D, Reuss DE, Dogan H, Hartmann C, Mawrin C, Hasselblatt M, Stummer W, Schick U, Hench J, Frank S, Ketter R, Schweizer L, Schittenhelm J, Puget S, Brandner S, Jaunmuktane Z, Küsters B, Abdullaev Z, Pekmezci M, Snuderl M, Ratliff M, Herold-Mende C, Unterberg A, Aldape K, Ellison DW, Wesseling P, Reifenberger G, Wick W, Perry A, Varlet P, Pfister SM, Jones DTW, von Deimling A, and Sahm F

Subjects

Child, Cohort Studies, DNA Methylation genetics, DNA Mutational Analysis, DNA, Neoplasm genetics, Disease Progression, Epigenesis, Genetic, Female, Genome-Wide Association Study, Humans, Immunohistochemistry, Male, Mutation genetics, Neoplasm Recurrence, Local, Treatment Outcome, Young Adult, Brain Neoplasms genetics, Brain Neoplasms pathology, Chromosomal Proteins, Non-Histone genetics, DNA-Binding Proteins genetics, Meningioma genetics, Meningioma pathology

Abstract

Clear cell meningioma represents an uncommon variant of meningioma that typically affects children and young adults. Although an enrichment of loss-of-function mutations in the SMARCE1 gene has been reported for this subtype, comprehensive molecular investigations are lacking. Here we describe a molecularly distinct subset of tumors (n = 31), initially identified through genome-wide DNA methylation screening among a cohort of 3093 meningiomas, of which most were diagnosed histologically as clear cell meningioma. This cohort was further supplemented by an additional 11 histologically diagnosed clear cell meningiomas for analysis (n = 42). Targeted DNA sequencing revealed SMARCE1 mutations in 33/34 analyzed samples, accompanied by a nuclear loss of expression determined via immunohistochemistry and a decreased SMARCE1 transcript expression in the tumor cells. Analysis of time to progression or recurrence of patients within the clear cell meningioma group (n = 14) in comparison to those with meningioma WHO grade 2 (n = 220) revealed a similar outcome and support the assignment of WHO grade 2 to these tumors. Our findings indicate the existence of a highly distinct epigenetic signature of clear cell meningiomas, separate from all other variants of meningiomas, with recurrent mutations in the SMARCE1 gene. This suggests that these tumors may arise from a different precursor cell population than the broad spectrum of the other meningioma subtypes.

Published

2021

20. Primary mismatch repair deficient IDH-mutant astrocytoma (PMMRDIA) is a distinct type with a poor prognosis.

Author

Suwala AK, Stichel D, Schrimpf D, Kloor M, Wefers AK, Reinhardt A, Maas SLN, Kratz CP, Schweizer L, Hasselblatt M, Snuderl M, Abedalthagafi MSJ, Abdullaev Z, Monoranu CM, Bergmann M, Pekrun A, Freyschlag C, Aronica E, Kramm CM, Hinz F, Sievers P, Korshunov A, Kool M, Pfister SM, Sturm D, Jones DTW, Wick W, Unterberg A, Hartmann C, Dodgshun A, Tabori U, Wesseling P, Sahm F, von Deimling A, and Reuss DE

Subjects

Adolescent, Adult, Astrocytoma diagnosis, Brain Neoplasms diagnosis, Child, DNA Methylation, Female, Gene Dosage, Gene Expression Regulation, Neoplastic genetics, Humans, Immunohistochemistry, Kaplan-Meier Estimate, Male, Microsatellite Instability, Mutation genetics, Neoplasm Recurrence, Local, Prognosis, Signal Transduction genetics, Survival Analysis, X-linked Nuclear Protein genetics, Young Adult, Astrocytoma genetics, Brain Neoplasms genetics, DNA Mismatch Repair genetics, Isocitrate Dehydrogenase genetics

Abstract

Diffuse IDH-mutant astrocytoma mostly occurs in adults and carries a favorable prognosis compared to IDH-wildtype malignant gliomas. Acquired mismatch repair deficiency is known to occur in recurrent IDH-mutant gliomas as resistance mechanism towards alkylating chemotherapy. In this multi-institutional study, we report a novel epigenetic group of 32 IDH-mutant gliomas with proven or suspected hereditary mismatch repair deficiency. None of the tumors exhibited a combined 1p/19q deletion. These primary mismatch repair-deficient IDH-mutant astrocytomas (PMMRDIA) were histologically high-grade and were mainly found in children, adolescents and young adults (median age 14 years). Mismatch repair deficiency syndromes (Lynch or Constitutional Mismatch Repair Deficiency Syndrom (CMMRD)) were clinically diagnosed and/or germline mutations in DNA mismatch repair genes (MLH1, MSH6, MSH2) were found in all cases, except one case with a family and personal history of colon cancer and another case with MSH6-deficiency available only as recurrent tumor. Loss of at least one of the mismatch repair proteins was detected via immunohistochemistry in all, but one case analyzed. Tumors displayed a hypermutant genotype and microsatellite instability was present in more than half of the sequenced cases. Integrated somatic mutational and chromosomal copy number analyses showed frequent inactivation of TP53, RB1 and activation of RTK/PI3K/AKT pathways. In contrast to the majority of IDH-mutant gliomas, more than 60% of the samples in our cohort presented with an unmethylated MGMT promoter. While the rate of immuno-histochemical ATRX loss was reduced, variants of unknown significance were more frequently detected possibly indicating a higher frequency of ATRX inactivation by protein malfunction. Compared to reference cohorts of other IDH-mutant gliomas, primary mismatch repair-deficient IDH-mutant astrocytomas have by far the worst clinical outcome with a median survival of only 15 months irrespective of histological or molecular features. The findings reveal a so far unknown entity of IDH-mutant astrocytoma with high prognostic relevance. Diagnosis can be established by aligning with the characteristic DNA methylation profile, by DNA-sequencing-based proof of mismatch repair deficiency or immunohistochemically demonstrating loss-of-mismatch repair proteins.

Published

2021

21. Infratentorial IDH-mutant astrocytoma is a distinct subtype.

Author

Banan R, Stichel D, Bleck A, Hong B, Lehmann U, Suwala A, Reinhardt A, Schrimpf D, Buslei R, Stadelmann C, Ehlert K, Prinz M, Acker T, Schittenhelm J, Kaul D, Schweizer L, Capper D, Harter PN, Etminan N, Jones DTW, Pfister SM, Herold-Mende C, Wick W, Sahm F, von Deimling A, Hartmann C, and Reuss DE

Subjects

Adolescent, Adult, Aged, Child, Child, Preschool, Female, Humans, Infant, Male, Middle Aged, Mutation, Young Adult, Astrocytoma genetics, Astrocytoma pathology, Infratentorial Neoplasms genetics, Infratentorial Neoplasms pathology, Isocitrate Dehydrogenase genetics

Abstract

Diffuse IDH-mutant astrocytic tumors are rarely diagnosed in the cerebellum or brainstem. In this multi-institutional study, we characterized a series of primary infratentorial IDH-mutant astrocytic tumors with respect to clinical and molecular parameters. We report that about 80% of IDH mutations in these tumors are of non-IDH1-R132H variants which are rare in supratentorial astrocytomas. Most frequently, IDH1-R132C/G and IDH2-R172S/G mutations were present. Moreover, the frequencies of ATRX-loss and MGMT promoter methylation, which are typically associated with IDH mutations in supratentorial astrocytic tumors, were significantly lower in the infratentorial compartment. Gene panel sequencing revealed two samples with IDH1-R132C/H3F3A-K27M co-mutations. Genome-wide DNA methylation as well as chromosomal copy number profiling provided further evidence for a molecular distinctiveness of infratentorial IDH-mutant astrocytomas. Clinical outcome of patients with infratentorial IDH-mutant astrocytomas is significantly better than that of patients with diffuse midline gliomas, H3K27M-mutant (p < 0.005) and significantly worse than that of patients with supratentorial IDH-mutant astrocytomas (p = 0.028). The presented data highlight the very existence and distinctiveness of infratentorial IDH-mutant astrocytomas that have important implications for diagnostics and prognostication. They imply that molecular testing is critical for detection of these tumors, since many of these tumors cannot be identified by immunohistochemistry applied for the mutated IDH1-R132H protein or loss of ATRX.

Published

2020

22. CDKN2A/B homozygous deletion is associated with early recurrence in meningiomas.

Author

Sievers P, Hielscher T, Schrimpf D, Stichel D, Reuss DE, Berghoff AS, Neidert MC, Wirsching HG, Mawrin C, Ketter R, Paulus W, Reifenberger G, Lamszus K, Westphal M, Etminan N, Ratliff M, Herold-Mende C, Pfister SM, Jones DTW, Weller M, Harter PN, Wick W, Preusser M, von Deimling A, and Sahm F

Subjects

Genes, p16 physiology, Humans, Sequence Deletion genetics, Cyclin-Dependent Kinase Inhibitor p16 genetics, Gene Deletion, Homozygote, Meningeal Neoplasms genetics, Meningioma genetics

Published

2020

23. Posterior fossa pilocytic astrocytomas with oligodendroglial features show frequent FGFR1 activation via fusion or mutation.

Author

Sievers P, Schrimpf D, Stichel D, Reuss DE, Hasselblatt M, Hagel C, Staszewski O, Hench J, Frank S, Brandner S, Korshunov A, Wick W, Pfister SM, Reifenberger G, von Deimling A, Sahm F, and Jones DTW

Subjects

Cohort Studies, DNA Methylation, Fetal Proteins genetics, Humans, Infratentorial Neoplasms pathology, Microtubule-Associated Proteins genetics, Nuclear Proteins genetics, Oligodendroglia, Astrocytoma genetics, Astrocytoma pathology, Gene Fusion genetics, Infratentorial Neoplasms genetics, Mutation genetics, Receptor, Fibroblast Growth Factor, Type 1 genetics

Published

2020

24. YAP1-fusions in pediatric NF2-wildtype meningioma.

Author

Sievers P, Chiang J, Schrimpf D, Stichel D, Paramasivam N, Sill M, Gayden T, Casalini B, Reuss DE, Dalton J, Pajtler KW, Hänggi D, Herold-Mende C, Rushing E, Korshunov A, Mawrin C, Weller M, Schlesner M, Wick W, Jabado N, Jones DTW, Pfister SM, von Deimling A, Ellison DW, and Sahm F

Subjects

Adolescent, Adult, Child, Child, Preschool, Female, Genes, Neurofibromatosis 2, Humans, Infant, Male, Oncogene Fusion genetics, Oncogene Proteins, Fusion genetics, YAP-Signaling Proteins, Adaptor Proteins, Signal Transducing genetics, Meningeal Neoplasms genetics, Meningioma genetics, Transcription Factors genetics

Published

2020

25. Routine RNA sequencing of formalin-fixed paraffin-embedded specimens in neuropathology diagnostics identifies diagnostically and therapeutically relevant gene fusions.

Author

Stichel D, Schrimpf D, Casalini B, Meyer J, Wefers AK, Sievers P, Korshunov A, Koelsche C, Reuss DE, Reinhardt A, Ebrahimi A, Fernández-Klett F, Kessler T, Sturm D, Ecker J, Milde T, Herold-Mende C, Witt O, Pfister SM, Wick W, Jones DTW, von Deimling A, and Sahm F

Subjects

Base Sequence, DNA Mutational Analysis methods, Gene Fusion genetics, High-Throughput Nucleotide Sequencing methods, Humans, Neuropathology methods, Paraffin Embedding methods, Brain Neoplasms diagnosis, Brain Neoplasms genetics, Mutation genetics, Sequence Analysis, RNA

Abstract

Molecular markers have become pivotal in brain tumor diagnostics. Mutational analyses by targeted next-generation sequencing of DNA and array-based DNA methylation assessment with copy number analyses are increasingly being used in routine diagnostics. However, the broad variety of gene fusions occurring in brain tumors is marginally covered by these technologies and often only assessed by targeted assays. Here, we assessed the feasibility and clinical value of investigating gene fusions in formalin-fixed paraffin-embedded (FFPE) tumor tissues by next-generation mRNA sequencing in a routine diagnostic setting. After establishment and optimization of a workflow applicable in a routine setting, prospective diagnostic application in a neuropathology department for 26 months yielded relevant fusions in 66 out of 101 (65%) analyzed cases. In 43 (43%) cases, the fusions were of decisive diagnostic relevance and in 40 (40%) cases the fusion genes rendered a druggable target. A major strength of this approach was its ability to detect fusions beyond the canonical alterations for a given entity, and the unbiased search for any fusion event in cases with uncertain diagnosis and, thus, uncertain spectrum of expected fusions. This included both rare variants of established fusions which had evaded prior targeted analyses as well as the detection of previously unreported fusion events. While the impact of fusion detection on diagnostics is highly relevant, it is especially the detection of "druggable" fusions which will most likely provide direct benefit to the patients. The wider application of this approach for unbiased fusion identification therefore promises to be a major advance in identifying alterations with immediate impact on patient care.

Published

2019

26. Rosette-forming glioneuronal tumors share a distinct DNA methylation profile and mutations in FGFR1, with recurrent co-mutation of PIK3CA and NF1.

Author

Sievers P, Appay R, Schrimpf D, Stichel D, Reuss DE, Wefers AK, Reinhardt A, Coras R, Ruf VC, Schmid S, de Stricker K, Boldt HB, Kristensen BW, Petersen JK, Ulhøi BP, Gardberg M, Aronica E, Hasselblatt M, Brück W, Bielle F, Mokhtari K, Lhermitte B, Wick W, Herold-Mende C, Hänggi D, Brandner S, Giangaspero F, Capper D, Rushing E, Wesseling P, Pfister SM, Figarella-Branger D, von Deimling A, Sahm F, and Jones DTW

Subjects

Adolescent, Adult, Aged, Child, DNA Methylation, Female, Humans, Male, Middle Aged, Mutation, Neurons pathology, Retrospective Studies, Young Adult, Brain Neoplasms genetics, Class I Phosphatidylinositol 3-Kinases genetics, Glioma genetics, Neurofibromin 1 genetics, Receptor, Fibroblast Growth Factor, Type 1 genetics

Abstract

Rosette-forming glioneuronal tumor (RGNT) is a rare brain neoplasm that primarily affects young adults. Although alterations affecting the mitogen-activated protein kinase (MAPK) and phosphoinositide 3-kinase (PI3K) signaling pathway have been associated with this low-grade entity, comprehensive molecular investigations of RGNT in larger series have not been performed to date, and an integrated view of their genetic and epigenetic profiles is still lacking. Here we describe a genome-wide DNA methylation and targeted sequencing-based characterization of a molecularly distinct class of tumors (n = 30), initially identified through genome-wide DNA methylation screening among a cohort of > 30,000 tumors, of which most were diagnosed histologically as RGNT. FGFR1 hotspot mutations were observed in all tumors analyzed, with co-occurrence of PIK3CA mutations in about two-thirds of the cases (63%). Additional loss-of-function mutations in the tumor suppressor gene NF1 were detected in a subset of cases (33%). Notably, in contrast to most other low-grade gliomas, these tumors often displayed co-occurrence of two or even all three of these mutations. Our data highlight that molecularly defined RGNTs are characterized by highly recurrent combined genetic alterations affecting both MAPK and PI3K signaling pathways. Thus, these two pathways appear to synergistically interact in the formation of RGNT, and offer potential therapeutic targets for this disease.

Published

2019

27. Mutational patterns and regulatory networks in epigenetic subgroups of meningioma.

Author

Paramasivam N, Hübschmann D, Toprak UH, Ishaque N, Neidert M, Schrimpf D, Stichel D, Reuss D, Sievers P, Reinhardt A, Wefers AK, Jones DTW, Gu Z, Werner J, Uhrig S, Wirsching HG, Schick M, Bewerunge-Hudler M, Beck K, Brehmer S, Urbschat S, Seiz-Rosenhagen M, Hänggi D, Herold-Mende C, Ketter R, Eils R, Ram Z, Pfister SM, Wick W, Weller M, Grossmann R, von Deimling A, Schlesner M, and Sahm F

Subjects

Chromatin Immunoprecipitation, Gene Dosage, Genomic Instability, Humans, Meningeal Neoplasms etiology, Meningeal Neoplasms genetics, Meningeal Neoplasms pathology, Meningioma etiology, Meningioma genetics, Meningioma pathology, Neoplasm Proteins genetics, Neoplasms, Radiation-Induced genetics, Neoplasms, Radiation-Induced pathology, Polymorphism, Single Nucleotide, RNA, Messenger genetics, RNA, Neoplasm genetics, Recombinational DNA Repair, Sequence Alignment, Transcription Factors physiology, Transcriptome, Whole Genome Sequencing, DNA Methylation, DNA, Neoplasm genetics, Gene Expression Regulation, Neoplastic genetics, Meningeal Neoplasms classification, Meningioma classification, Mutation

Abstract

DNA methylation patterns delineate clinically relevant subgroups of meningioma. We previously established the six meningioma methylation classes (MC) benign 1-3, intermediate A and B, and malignant. Here, we set out to identify subgroup-specific mutational patterns and gene regulation. Whole genome sequencing was performed on 62 samples across all MCs and WHO grades from 62 patients with matched blood control, including 40 sporadic meningiomas and 22 meningiomas arising after radiation (Mrad). RNA sequencing was added for 18 of these cases and chromatin-immunoprecipitation for histone H3 lysine 27 acetylation (H3K27ac) followed by sequencing (ChIP-seq) for 16 samples. Besides the known mutations in meningioma, structural variants were found as the mechanism of NF2 inactivation in a small subset (5%) of sporadic meningiomas, similar to previous reports for Mrad. Aberrations of DMD were found to be enriched in MCs with NF2 mutations, and DMD was among the most differentially upregulated genes in NF2 mutant compared to NF2 wild-type cases. The mutational signature AC3, which has been associated with defects in homologous recombination repair (HRR), was detected in both sporadic meningioma and Mrad, but widely distributed across the genome in sporadic cases and enriched near genomic breakpoints in Mrad. Compared to the other MCs, the number of single nucleotide variants matching the AC3 pattern was significantly higher in the malignant MC, which also exhibited higher genomic instability, determined by the numbers of both large segments affected by copy number alterations and breakpoints between large segments. ChIP-seq analysis for H3K27ac revealed a specific activation of genes regulated by the transcription factor FOXM1 in the malignant MC. This analysis also revealed a super enhancer near the HOXD gene cluster in this MC, which, together with general upregulation of HOX genes in the malignant MC, indicates a role of HOX genes in meningioma aggressiveness. This data elucidates the biological mechanisms rendering different epigenetic subgroups of meningiomas, and suggests leveraging HRR as a novel therapeutic target.

Published

2019

28. Papillary glioneuronal tumor (PGNT) exhibits a characteristic methylation profile and fusions involving PRKCA.

Author

Hou Y, Pinheiro J, Sahm F, Reuss DE, Schrimpf D, Stichel D, Casalini B, Koelsche C, Sievers P, Wefers AK, Reinhardt A, Ebrahimi A, Fernández-Klett F, Pusch S, Meier J, Schweizer L, Paulus W, Prinz M, Hartmann C, Plate KH, Reifenberger G, Pietsch T, Varlet P, Pagès M, Schüller U, Scheie D, de Stricker K, Frank S, Hench J, Pollo B, Brandner S, Unterberg A, Pfister SM, Jones DTW, Korshunov A, Wick W, Capper D, Blümcke I, von Deimling A, and Bertero L

Subjects

Adolescent, Adult, Antigens, CD genetics, Antigens, CD metabolism, Biomarkers, Tumor genetics, Biomarkers, Tumor metabolism, Brain metabolism, Brain pathology, Brain Neoplasms pathology, Child, Cohort Studies, Female, Gene Fusion, Humans, Male, Middle Aged, Neoplasms, Neuroepithelial pathology, Organic Cation Transport Proteins genetics, Organic Cation Transport Proteins metabolism, Site-Specific DNA-Methyltransferase (Adenine-Specific), Brain Neoplasms genetics, Brain Neoplasms metabolism, Neoplasms, Neuroepithelial genetics, Neoplasms, Neuroepithelial metabolism, Protein Kinase C-alpha genetics, Protein Kinase C-alpha metabolism

Abstract

Papillary glioneuronal tumor (PGNT) is a WHO-defined brain tumor entity that poses a major diagnostic challenge. Recently, SLC44A1-PRKCA fusions have been described in PGNT. We subjected 28 brain tumors from different institutions histologically diagnosed as PGNT to molecular and morphological analysis. Array-based methylation analysis revealed that 17/28 tumors exhibited methylation profiles typical for other tumor entities, mostly dysembryoplastic neuroepithelial tumor and hemispheric pilocytic astrocytoma. Conversely, 11/28 tumors exhibited a unique profile, thus constituting a distinct methylation class PGNT. By screening the extended Heidelberg cohort containing over 25,000 CNS tumors, we identified three additional tumors belonging to this methylation cluster but originally histologically diagnosed otherwise. RNA sequencing for the detection of SLC44A1-PRKCA fusions could be performed on 19 of the tumors, 10 of them belonging to the methylation class PGNT. In two additional cases, SLC44A1-PRKCA fusions were confirmed by FISH. We detected fusions involving PRKCA in all cases of this methylation class with material available for analyses: the canonical SLC44A1-PRKCA fusion was observed in 11/12 tumors, while the remaining case exhibited a NOTCH1-PRKCA fusion. Neither of the fusions was found in the tumors belonging to other methylation classes. Our results point towards a high misclassification rate of the morphological diagnosis PGNT and clearly demonstrate the necessity of molecular analyses. PRKCA fusions are highly diagnostic for PGNT, and detection by RNA sequencing enables the identification of rare fusion partners. Methylation analysis recognizes a unique methylation class PGNT irrespective of the nature of the PRKCA fusion.

Published

2019

29. Chordoid meningiomas can be sub-stratified into prognostically distinct DNA methylation classes and are enriched for heterozygous deletions of chromosomal arm 2p.

Author

Sievers P, Stichel D, Hielscher T, Schrimpf D, Reinhardt A, Wefers AK, Reuss D, Jones DTW, Bewerunge-Hudler M, Hartmann C, Baumgarten P, Wirsching HG, Winther-Kristensen B, Brokinkel B, Ketter R, Idoate Gastearena MA, Lamszus K, Seiz-Rosenhagen M, Mawrin C, Harter PN, Felsberg J, Hänggi D, Herold-Mende C, Berghoff AS, Weller M, Pfister SM, Wick W, Reifenberger G, Preusser M, von Deimling A, and Sahm F

Subjects

Humans, Meningeal Neoplasms pathology, Meningioma pathology, Prognosis, Chromosome Aberrations, Chromosomes, Human, Pair 2 genetics, DNA Methylation genetics, Meningeal Neoplasms genetics, Meningioma genetics, Sequence Deletion genetics

Published

2018

30. Distribution of EGFR amplification, combined chromosome 7 gain and chromosome 10 loss, and TERT promoter mutation in brain tumors and their potential for the reclassification of IDHwt astrocytoma to glioblastoma.

Author

Stichel D, Ebrahimi A, Reuss D, Schrimpf D, Ono T, Shirahata M, Reifenberger G, Weller M, Hänggi D, Wick W, Herold-Mende C, Westphal M, Brandner S, Pfister SM, Capper D, Sahm F, and von Deimling A

Subjects

Adult, Aged, Astrocytoma pathology, Brain metabolism, Brain pathology, Brain Neoplasms pathology, Cohort Studies, ErbB Receptors genetics, ErbB Receptors metabolism, Female, Glioblastoma pathology, Humans, Male, Middle Aged, Mutation genetics, Astrocytoma genetics, Brain Neoplasms genetics, Chromosomes, Human, Pair 10 genetics, Chromosomes, Human, Pair 7 genetics, Glioblastoma genetics, Isocitrate Dehydrogenase genetics

Abstract

EGFR amplification (EGFRamp), the combination of gain of chromosome 7 and loss of chromosome 10 (7+/10-), and TERT promoter mutation (pTERTmut) are alterations frequently observed in adult IDH-wild-type (IDHwt) glioblastoma (GBM). In the absence of endothelial proliferation and/or necrosis, these alterations currently are considered to serve as a surrogate for upgrading IDHwt diffuse or anaplastic astrocytoma to GBM. Here, we set out to determine the distribution of EGFRamp, 7+/10-, and pTERTmut by analyzing high-resolution copy-number profiles and next-generation sequencing data of primary brain tumors. In addition, we addressed the question whether combinations of partial gains on chromosome 7 and partial losses on chromosome 10 exhibited a diagnostic and prognostic value similar to that of complete 7+/10-. Several such combinations proved relevant and were combined as the 7/10 signature. Our results demonstrate that EGFRamp and the 7/10 signature are closely associated with IDHwt GBM. In contrast, pTERTmut is less specific for IDHwt GBM. We conclude that, in the absence of endothelial proliferation and/or necrosis, the detection of EGFRamp is a very strong surrogate marker for the diagnosis of GBM in IDHwt diffuse astrocytic tumors. The 7/10 signature is also a strong surrogate marker. However, care should be taken to exclude pleomorphic xanthoastrocytoma. pTERTmut is less restricted to this entity and needs companion analysis by other molecular markers to serve as a surrogate for diagnosing IDHwt GBM. A combination of any two of EGFRamp, the 7/10 signature and pTERTmut, is highly specific for IDHwt GBM and the combination of all three alterations is frequent and exclusively seen in IDHwt GBM.

Published

2018

31. Anaplastic astrocytoma with piloid features, a novel molecular class of IDH wildtype glioma with recurrent MAPK pathway, CDKN2A/B and ATRX alterations.

Author

Reinhardt A, Stichel D, Schrimpf D, Sahm F, Korshunov A, Reuss DE, Koelsche C, Huang K, Wefers AK, Hovestadt V, Sill M, Gramatzki D, Felsberg J, Reifenberger G, Koch A, Thomale UW, Becker A, Hans VH, Prinz M, Staszewski O, Acker T, Dohmen H, Hartmann C, Mueller W, Tuffaha MSA, Paulus W, Heß K, Brokinkel B, Schittenhelm J, Monoranu CM, Kessler AF, Loehr M, Buslei R, Deckert M, Mawrin C, Kohlhof P, Hewer E, Olar A, Rodriguez FJ, Giannini C, NageswaraRao AA, Tabori U, Nunes NM, Weller M, Pohl U, Jaunmuktane Z, Brandner S, Unterberg A, Hänggi D, Platten M, Pfister SM, Wick W, Herold-Mende C, Jones DTW, von Deimling A, and Capper D

Subjects

Adolescent, Adult, Age Factors, Aged, Aged, 80 and over, Child, Child, Preschool, Cyclin-Dependent Kinase Inhibitor p16 genetics, DNA Methylation genetics, DNA Modification Methylases metabolism, DNA Repair Enzymes metabolism, Female, Histones genetics, Histones metabolism, Humans, Infant, Kaplan-Meier Estimate, Male, Middle Aged, Mitogen-Activated Protein Kinase Kinases genetics, Mutation genetics, Retrospective Studies, Tumor Suppressor Proteins metabolism, X-linked Nuclear Protein genetics, Young Adult, Astrocytoma genetics, Brain Neoplasms genetics, Isocitrate Dehydrogenase genetics, Signal Transduction genetics

Abstract

Tumors with histological features of pilocytic astrocytoma (PA), but with increased mitotic activity and additional high-grade features (particularly microvascular proliferation and palisading necrosis) have often been designated anaplastic pilocytic astrocytomas. The status of these tumors as a separate entity has not yet been conclusively demonstrated and molecular features have only been partially characterized. We performed DNA methylation profiling of 102 histologically defined anaplastic pilocytic astrocytomas. T-distributed stochastic neighbor-embedding (t-SNE) and hierarchical clustering analysis of these 102 cases against 158 reference cases from 12 glioma reference classes revealed that a subset of 83 of these tumors share a common DNA methylation profile that is distinct from the reference classes. These 83 tumors were thus denominated DNA methylation class anaplastic astrocytoma with piloid features (MC AAP). The 19 remaining tumors were distributed amongst the reference classes, with additional testing confirming the molecular diagnosis in most cases. Median age of patients with MC AAP was 41.5 years. The most frequent localization was the posterior fossa (74%). Deletions of CDKN2A/B (66/83, 80%), MAPK pathway gene alterations (49/65, 75%, most frequently affecting NF1, followed by BRAF and FGFR1) and mutations of ATRX or loss of ATRX expression (33/74, 45%) were the most common molecular alterations. All tumors were IDH1/2 wildtype. The MGMT promoter was methylated in 38/83 tumors (45%). Outcome analysis confirmed an unfavorable clinical course in comparison to PA, but better than IDH wildtype glioblastoma. In conclusion, we show that a subset of histologically defined anaplastic pilocytic astrocytomas forms a separate DNA methylation cluster, harbors recurrent alterations in MAPK pathway genes in combination with alterations of CDKN2A/B and ATRX, affects patients who are on average older than those diagnosed with PA and has an intermediate clinical outcome.

Published

2018

32. Practical implementation of DNA methylation and copy-number-based CNS tumor diagnostics: the Heidelberg experience.

Author

Capper D, Stichel D, Sahm F, Jones DTW, Schrimpf D, Sill M, Schmid S, Hovestadt V, Reuss DE, Koelsche C, Reinhardt A, Wefers AK, Huang K, Sievers P, Ebrahimi A, Schöler A, Teichmann D, Koch A, Hänggi D, Unterberg A, Platten M, Wick W, Witt O, Milde T, Korshunov A, Pfister SM, and von Deimling A

Subjects

DNA Modification Methylases genetics, DNA Repair Enzymes genetics, Female, Humans, Isocitrate Dehydrogenase genetics, Male, Receptor Protein-Tyrosine Kinases genetics, Retrospective Studies, Tumor Suppressor Proteins genetics, Central Nervous System Neoplasms classification, Central Nervous System Neoplasms genetics, DNA Copy Number Variations genetics, DNA Methylation genetics, Neoplasm Proteins genetics

Abstract

Recently, we described a machine learning approach for classification of central nervous system tumors based on the analysis of genome-wide DNA methylation patterns [6]. Here, we report on DNA methylation-based central nervous system (CNS) tumor diagnostics conducted in our institution between the years 2015 and 2018. In this period, more than 1000 tumors from the neurosurgical departments in Heidelberg and Mannheim and more than 1000 tumors referred from external institutions were subjected to DNA methylation analysis for diagnostic purposes. We describe our current approach to the integrated diagnosis of CNS tumors with a focus on constellations with conflicts between morphological and molecular genetic findings. We further describe the benefit of integrating DNA copy-number alterations into diagnostic considerations and provide a catalog of copy-number changes for individual DNA methylation classes. We also point to several pitfalls accompanying the diagnostic implementation of DNA methylation profiling and give practical suggestions for recurring diagnostic scenarios.

Published

2018

33. Novel, improved grading system(s) for IDH-mutant astrocytic gliomas.

Author

Shirahata M, Ono T, Stichel D, Schrimpf D, Reuss DE, Sahm F, Koelsche C, Wefers A, Reinhardt A, Huang K, Sievers P, Shimizu H, Nanjo H, Kobayashi Y, Miyake Y, Suzuki T, Adachi JI, Mishima K, Sasaki A, Nishikawa R, Bewerunge-Hudler M, Ryzhova M, Absalyamova O, Golanov A, Sinn P, Platten M, Jungk C, Winkler F, Wick A, Hänggi D, Unterberg A, Pfister SM, Jones DTW, van den Bent M, Hegi M, French P, Baumert BG, Stupp R, Gorlia T, Weller M, Capper D, Korshunov A, Herold-Mende C, Wick W, Louis DN, and von Deimling A

Subjects

Adolescent, Adult, Aged, Algorithms, Astrocytoma mortality, Brain Neoplasms mortality, Cyclin-Dependent Kinase Inhibitor p16 genetics, Cyclin-Dependent Kinase Inhibitor p16 metabolism, Female, Gene Expression Regulation, Neoplastic genetics, Humans, Ki-67 Antigen metabolism, Male, Middle Aged, Models, Biological, Neoplasm Grading, Neoplasm Proteins genetics, Neoplasm Proteins metabolism, World Health Organization, Young Adult, Astrocytoma genetics, Astrocytoma pathology, Brain Neoplasms genetics, Brain Neoplasms pathology, Isocitrate Dehydrogenase genetics, Mutation genetics

Abstract

According to the 2016 World Health Organization Classification of Tumors of the Central Nervous System (2016 CNS WHO), IDH-mutant astrocytic gliomas comprised WHO grade II diffuse astrocytoma, IDH-mutant (AII IDHmut ), WHO grade III anaplastic astrocytoma, IDH-mutant (AAIII IDHmut ), and WHO grade IV glioblastoma, IDH-mutant (GBM IDHmut ). Notably, IDH gene status has been made the major criterion for classification while the manner of grading has remained unchanged: it is based on histological criteria that arose from studies which antedated knowledge of the importance of IDH status in diffuse astrocytic tumor prognostic assessment. Several studies have now demonstrated that the anticipated differences in survival between the newly defined AII IDHmut and AAIII IDHmut have lost their significance. In contrast, GBM IDHmut still exhibits a significantly worse outcome than its lower grade IDH-mutant counterparts. To address the problem of establishing prognostically significant grading for IDH-mutant astrocytic gliomas in the IDH era, we undertook a comprehensive study that included assessment of histological and genetic approaches to prognosis in these tumors. A discovery cohort of 211 IDH-mutant astrocytic gliomas with an extended observation was subjected to histological review, image analysis, and DNA methylation studies. Tumor group-specific methylation profiles and copy number variation (CNV) profiles were established for all gliomas. Algorithms for automated CNV analysis were developed. All tumors exhibiting 1p/19q codeletion were excluded from the series. We developed algorithms for grading, based on molecular, morphological and clinical data. Performance of these algorithms was compared with that of WHO grading. Three independent cohorts of 108, 154 and 224 IDH-mutant astrocytic gliomas were used to validate this approach. In the discovery cohort several molecular and clinical parameters were of prognostic relevance. Most relevant for overall survival (OS) was CDKN2A/B homozygous deletion. Other parameters with major influence were necrosis and the total number of CNV. Proliferation as assessed by mitotic count, which is a key parameter in 2016 CNS WHO grading, was of only minor influence. Employing the parameters most relevant for OS in our discovery set, we developed two models for grading these tumors. These models performed significantly better than WHO grading in both the discovery and the validation sets. Our novel algorithms for grading IDH-mutant astrocytic gliomas overcome the challenges caused by introduction of IDH status into the WHO classification of diffuse astrocytic tumors. We propose that these revised approaches be used for grading of these tumors and incorporated into future WHO criteria.

Published

2018

34. Loss of histone H3K27me3 identifies a subset of meningiomas with increased risk of recurrence.

Author

Katz LM, Hielscher T, Liechty B, Silverman J, Zagzag D, Sen R, Wu P, Golfinos JG, Reuss D, Neidert MC, Wirsching HG, Baumgarten P, Herold-Mende C, Wick W, Harter PN, Weller M, von Deimling A, Snuderl M, Sen C, and Sahm F

Subjects

Aged, Biomarkers, Tumor genetics, Biomarkers, Tumor metabolism, Cohort Studies, Epigenesis, Genetic, Female, Genes, Neurofibromatosis 2, Histones genetics, Humans, Male, Meningeal Neoplasms genetics, Meningeal Neoplasms pathology, Meningioma genetics, Meningioma pathology, Middle Aged, Mutation, Neoplasm Grading, Neoplasm Recurrence, Local genetics, Neoplasm Recurrence, Local pathology, Prognosis, Progression-Free Survival, Repressor Proteins genetics, DNA Methylation, Histones metabolism, Meningeal Neoplasms metabolism, Meningioma metabolism, Neoplasm Recurrence, Local metabolism

Abstract

Epigenetic patterns on the level of DNA methylation have already been shown to separate clinically relevant subgroups of meningiomas. We here set out to identify potential prognostic implications of epigenetic modification on the level of histones with focus on H3K27 trimethylation (H3K27me3). H3K27me3 was assessed by immunohistochemistry on 232 meningiomas from 232 patients. In 194 cases, trimethylation was detected in tumor cells. In 25 cases, staining was limited to vessels while all tumor cells were negative. Finally, 13 cases yielded equivocal staining patterns. Reduced abundance of H3K27me3 in cases with staining limited to vessels was confirmed by mass spectrometry on a subset of cases. Lack of staining for H3K27me3 in all tumor cells was significantly associated with more rapid progression (p = 0.009). In line, H3K27me3-negative cases were associated with a DNA methylation pattern of the more aggressive types among the recently introduced DNA methylation groups. Also, NF2 and SUFU mutations were enriched among cases with complete lack of H3K27me3 staining in tumor cells (p < 0.0001 and p = 0.029, respectively). H3K27me3 staining pattern added significant prognostic insight into WHO grade II cases and in the compound subset of WHO grade I and II cases (p = 0.04 and p = 0.007, respectively). However, it did not further stratify within WHO grade III cases. Collectively, these data indicate that epigenetic modifications beyond DNA methylation are involved in the aggressiveness of meningioma. It also suggests that H3K27me3 immunohistochemistry might be a useful adjunct in meningioma diagnostics, particularly for cases with WHO grade II histology or at the borderline between WHO grade I and II.

Published

2018

35. cIMPACT-NOW update 2: diagnostic clarifications for diffuse midline glioma, H3 K27M-mutant and diffuse astrocytoma/anaplastic astrocytoma, IDH-mutant.

Author

Louis DN, Giannini C, Capper D, Paulus W, Figarella-Branger D, Lopes MB, Batchelor TT, Cairncross JG, van den Bent M, Wick W, and Wesseling P

Subjects

Brain Neoplasms genetics, Glioma genetics, Histones genetics, Humans, Isocitrate Dehydrogenase genetics, Mutation, Brain Neoplasms classification, Brain Neoplasms diagnosis, Glioma classification, Glioma diagnosis, Terminology as Topic

Published

2018

36. The DNA methylome of DDR genes and benefit from RT or TMZ in IDH mutant low-grade glioma treated in EORTC 22033.

Author

Bady P, Kurscheid S, Delorenzi M, Gorlia T, van den Bent MJ, Hoang-Xuan K, Vauléon É, Gijtenbeek A, Enting R, Thiessen B, Chinot O, Dhermain F, Brandes AA, Reijneveld JC, Marosi C, Taphoorn MJB, Wick W, von Deimling A, French P, Stupp R, Baumert BG, and Hegi ME

Subjects

Adult, Antineoplastic Agents, Alkylating therapeutic use, Brain Neoplasms pathology, CpG Islands, DNA, DNA Modification Methylases genetics, DNA Repair Enzymes genetics, Epigenesis, Genetic, Female, Glioma pathology, Humans, Isocitrate Dehydrogenase genetics, Male, Neoplasm Grading, Progression-Free Survival, Promoter Regions, Genetic, Temozolomide therapeutic use, Treatment Outcome, Tumor Suppressor Proteins genetics, Brain Neoplasms genetics, Brain Neoplasms therapy, DNA Methylation drug effects, DNA Methylation radiation effects, Discoidin Domain Receptors genetics, Glioma genetics, Glioma therapy

Abstract

The optimal treatment for patients with low-grade glioma (LGG) WHO grade II remains controversial. Overall survival ranges from 2 to over 15 years depending on molecular and clinical factors. Hence, risk-adjusted treatments are required for optimizing outcome and quality of life. We aim at identifying mechanisms and associated molecular markers predictive for benefit from radiotherapy (RT) or temozolomide (TMZ) in LGG patients treated in the randomized phase III trial EORTC 22033. As candidate biomarkers for these genotoxic treatments, we considered the DNA methylome of 410 DNA damage response (DDR) genes. We first identified 62 functionally relevant CpG sites located in the promoters of 24 DDR genes, using the LGG data from The Cancer Genome Atlas. Then we tested their association with outcome [progression-free survival (PFS)] depending on treatment in 120 LGG patients of EORTC 22033, whose tumors were mutant for isocitrate dehydrogenase 1 or 2 (IDHmt), the molecular hallmark of LGG. The results suggested that seven CpGs of four DDR genes may be predictive for longer PFS in one of the treatment arms that comprised MGMT, MLH3, RAD21, and SMC4. Most interestingly, the two CpGs identified for MGMT are the same, previously selected for the MGMT-STP27 score that is used to determine the methylation status of the MGMT gene. This score was higher in the LGG with 1p/19q codeletion, in this and other independent LGG datasets. It was predictive for PFS in the TMZ, but not in the RT arm of EORTC 22033. The results support the hypothesis that a high score predicts benefit from TMZ treatment for patients with IDHmt LGG, regardless of the 1p/19q status. This MGMT methylation score may identify patients who benefit from first-line treatment with TMZ, to defer RT for long-term preservation of cognitive function and quality of life.

Published

2018

37. cIMPACT-NOW update 1: Not Otherwise Specified (NOS) and Not Elsewhere Classified (NEC).

Author

Louis DN, Wesseling P, Paulus W, Giannini C, Batchelor TT, Cairncross JG, Capper D, Figarella-Branger D, Lopes MB, Wick W, and van den Bent M

Subjects

Central Nervous System Neoplasms diagnosis, Central Nervous System Neoplasms metabolism, Humans, World Health Organization, Central Nervous System Neoplasms classification, Terminology as Topic

Published

2018

38. Pan-mutant IDH1 inhibitor BAY 1436032 for effective treatment of IDH1 mutant astrocytoma in vivo.

Author

Pusch S, Krausert S, Fischer V, Balss J, Ott M, Schrimpf D, Capper D, Sahm F, Eisel J, Beck AC, Jugold M, Eichwald V, Kaulfuss S, Panknin O, Rehwinkel H, Zimmermann K, Hillig RC, Guenther J, Toschi L, Neuhaus R, Haegebart A, Hess-Stumpp H, Bauser M, Wick W, Unterberg A, Herold-Mende C, Platten M, and von Deimling A

Subjects

Aniline Compounds chemistry, Aniline Compounds pharmacokinetics, Aniline Compounds toxicity, Animals, Antineoplastic Agents chemistry, Antineoplastic Agents pharmacokinetics, Antineoplastic Agents toxicity, Astrocytoma enzymology, Astrocytoma genetics, Benzimidazoles chemistry, Benzimidazoles pharmacokinetics, Benzimidazoles toxicity, Brain Neoplasms enzymology, Brain Neoplasms genetics, Cell Line, Tumor, Cell Survival drug effects, Cell Survival physiology, Colonic Neoplasms drug therapy, Colonic Neoplasms enzymology, Colonic Neoplasms genetics, Enzyme Inhibitors chemistry, Enzyme Inhibitors pharmacokinetics, Enzyme Inhibitors pharmacology, Enzyme Inhibitors toxicity, Escherichia coli, Female, Glutarates metabolism, HEK293 Cells, Humans, Isocitrate Dehydrogenase metabolism, Mice, Inbred BALB C, Mice, Nude, Mutation, Recombinant Proteins genetics, Recombinant Proteins metabolism, Sarcoma drug therapy, Sarcoma enzymology, Sarcoma genetics, Sf9 Cells, Xenograft Model Antitumor Assays, Aniline Compounds pharmacology, Antineoplastic Agents pharmacology, Astrocytoma drug therapy, Benzimidazoles pharmacology, Brain Neoplasms drug therapy, Isocitrate Dehydrogenase antagonists & inhibitors, Isocitrate Dehydrogenase genetics

Abstract

Mutations in codon 132 of isocitrate dehydrogenase (IDH) 1 are frequent in diffuse glioma, acute myeloid leukemia, chondrosarcoma and intrahepatic cholangiocarcinoma. These mutations result in a neomorphic enzyme specificity which leads to a dramatic increase of intracellular D-2-hydroxyglutarate (2-HG) in tumor cells. Therefore, mutant IDH1 protein is a highly attractive target for inhibitory drugs. Here, we describe the development and properties of BAY 1436032, a pan-inhibitor of IDH1 protein with different codon 132 mutations. BAY 1436032 strongly reduces 2-HG levels in cells carrying IDH1-R132H, -R132C, -R132G, -R132S and -R132L mutations. Cells not carrying IDH mutations were unaffected. BAY 1436032 did not exhibit toxicity in vitro or in vivo. The pharmacokinetic properties of BAY 1436032 allow for oral administration. In two independent experiments, BAY 1436032 has been shown to significantly prolong survival of mice intracerebrally transplanted with human astrocytoma carrying the IDH1R132H mutation. In conclusion, we developed a pan-inhibitor targeting tumors with different IDH1R132 mutations.

Published

2017

39. Gain of 12p encompassing CCND2 is associated with gemistocytic histology in IDH mutant astrocytomas.

Author

Sahm F, Korshunov A, Schrimpf D, Stichel D, Jones DT, Capper D, Koelsche C, Reuss D, Kratz A, Huang K, Wefers AK, Schick M, Bewerunge-Hudler M, Mittelbronn M, Platten M, Hänggi D, Jeibmann A, Unterberg A, Herold-Mende C, Pfister SM, Brandner S, Wick W, and von Deimling A

Subjects

DNA Copy Number Variations, Humans, Isocitrate Dehydrogenase genetics, Mutation, Astrocytoma genetics, Astrocytoma pathology, Brain Neoplasms genetics, Brain Neoplasms pathology, Cyclin D2 genetics

Published

2017

40. Announcing cIMPACT-NOW: the Consortium to Inform Molecular and Practical Approaches to CNS Tumor Taxonomy.

Author

Louis DN, Aldape K, Brat DJ, Capper D, Ellison DW, Hawkins C, Paulus W, Perry A, Reifenberger G, Figarella-Branger D, Wesseling P, Batchelor TT, Cairncross JG, Pfister SM, Rutkowski S, Weller M, Wick W, and von Deimling A

Subjects

Central Nervous System Neoplasms diagnosis, Humans, Central Nervous System Neoplasms classification, Central Nervous System Neoplasms metabolism, Consensus Development Conferences as Topic

Published

2017

41. Concepts in glioma immunotherapy.

Author

Platten M, Bunse L, Wick W, and Bunse T

Subjects

Animals, Antigens, Neoplasm immunology, Brain Neoplasms immunology, Clinical Trials as Topic, Glioma immunology, Humans, Immune Tolerance, Immunity, Immunodominant Epitopes immunology, Immunotherapy trends, Brain Neoplasms therapy, Cancer Vaccines immunology, Central Nervous System, Glioma therapy, Immunotherapy methods

Abstract

Immunotherapeutic concepts in neurooncology have been developed for many decades but have mainly been hampered by poor definition of relevant antigens and selective measures to target the central nervous system. Independent of the recent remarkable successes in clinical immunooncology with checkpoint inhibitors and vaccines, immunotherapy of brain tumors in general and gliomas in particular has evolved with novel neurooncology-specific concepts over the past years providing new phase 1 approaches of individualized immunotherapy to first phase three clinical trials. These concepts are driven by a high medical need in the absence of approved targeted therapies and refute the classic dogma that the central nervous system is immune-privileged and hence inaccessible to potent antitumor immunity. Instead, measures have been taken to improve the odds for successful immunotherapies, including rational targeting of relevant antigens and integration of immunotherapies into standard of care primary radiochemotherapy to increase the efficacy of antitumor immunity in a meaningful time window. This review highlights concepts and challenges associated with epitope discovery and selection and trial design.

Published

2016

42. Next-generation sequencing in routine brain tumor diagnostics enables an integrated diagnosis and identifies actionable targets.

Author

Sahm F, Schrimpf D, Jones DT, Meyer J, Kratz A, Reuss D, Capper D, Koelsche C, Korshunov A, Wiestler B, Buchhalter I, Milde T, Selt F, Sturm D, Kool M, Hummel M, Bewerunge-Hudler M, Mawrin C, Schüller U, Jungk C, Wick A, Witt O, Platten M, Herold-Mende C, Unterberg A, Pfister SM, Wick W, and von Deimling A

Subjects

Humans, Molecular Probe Techniques, Mutation genetics, Pathology, Molecular methods, Brain Neoplasms diagnosis, Brain Neoplasms genetics, High-Throughput Nucleotide Sequencing methods

Abstract

With the number of prognostic and predictive genetic markers in neuro-oncology steadily growing, the need for comprehensive molecular analysis of neuropathology samples has vastly increased. We therefore developed a customized enrichment/hybrid-capture-based next-generation sequencing (NGS) gene panel comprising the entire coding and selected intronic and promoter regions of 130 genes recurrently altered in brain tumors, allowing for the detection of single nucleotide variations, fusions, and copy number aberrations. Optimization of probe design, library generation and sequencing conditions on 150 samples resulted in a 5-workday routine workflow from the formalin-fixed paraffin-embedded sample to neuropathological report. This protocol was applied to 79 retrospective cases with established molecular aberrations for validation and 71 prospective cases for discovery of potential therapeutic targets. Concordance of NGS compared to established, single biomarker methods was 98.0 %, with discrepancies resulting from one case where a TERT promoter mutation was not called by NGS and three ATRX mutations not being detected by Sanger sequencing. Importantly, in samples with low tumor cell content, NGS was able to identify mutant alleles that were not detectable by traditional methods. Information derived from NGS data identified potential targets for experimental therapy in 37/47 (79 %) glioblastomas, 9/10 (90 %) pilocytic astrocytomas, and 5/14 (36 %) medulloblastomas in the prospective target discovery cohort. In conclusion, we present the settings for high-throughput, adaptive next-generation sequencing in routine neuropathology diagnostics. Such an approach will likely become highly valuable in the near future for treatment decision making, as more therapeutic targets emerge and genetic information enters the classification of brain tumors.

Published

2016

43. Adult IDH wild type astrocytomas biologically and clinically resolve into other tumor entities.

Author

Reuss DE, Kratz A, Sahm F, Capper D, Schrimpf D, Koelsche C, Hovestadt V, Bewerunge-Hudler M, Jones DT, Schittenhelm J, Mittelbronn M, Rushing E, Simon M, Westphal M, Unterberg A, Platten M, Paulus W, Reifenberger G, Tonn JC, Aldape K, Pfister SM, Korshunov A, Weller M, Herold-Mende C, Wick W, Brandner S, and von Deimling A

Subjects

Astrocytoma metabolism, Astrocytoma pathology, Biomarkers, Tumor, Brain Neoplasms metabolism, Brain Neoplasms pathology, Cohort Studies, DNA Methylation, Glioblastoma classification, Glioblastoma genetics, Glioblastoma metabolism, Glioblastoma pathology, Humans, Immunohistochemistry, Middle Aged, Mutation, Neoplasm Grading, Promoter Regions, Genetic, Survival Analysis, Telomerase genetics, Astrocytoma classification, Astrocytoma genetics, Brain Neoplasms classification, Brain Neoplasms genetics, Isocitrate Dehydrogenase genetics

Abstract

IDH wild type (IDHwt) anaplastic astrocytomas WHO grade III (AA III) are associated with poor outcome. To address the possibilities of molecular subsets among astrocytoma or of diagnostic reclassification, we analyzed a series of 160 adult IDHwt tumors comprising 120 AA III and 40 diffuse astrocytomas WHO grade II (A II) for molecular hallmark alterations and established methylation and copy number profiles. Based on molecular profiles and hallmark alterations the tumors could be grouped into four major sets. 124/160 (78 %) tumors were diagnosed as the molecular equivalent of conventional glioblastoma (GBM), and 15/160 (9 %) as GBM-H3F3A mutated (GBM-H3). 13/160 (8 %) exhibited a distinct methylation profile that was most similar to GBM-H3-K27, however, lacked the H3F3A mutation. This group was enriched for tumors of infratentorial and midline localization and showed a trend towards a more favorable prognosis. All but one of the 120 IDHwt AA III could be assigned to these three groups. 7 tumors recruited from the 40 A II, comprised a variety of molecular signatures and all but one were reclassified into distinct WHO entities of lower grades. Interestingly, TERT mutations were exclusively restricted to the molecular GBM (78 %) and associated with poor clinical outcome. However, the GBM-H3 group lacking TERT mutations appeared to fare even worse. Our data demonstrate that most of the tumors diagnosed as IDHwt astrocytomas can be allocated to other tumor entities on a molecular basis. The diagnosis of IDHwt diffuse astrocytoma or anaplastic astrocytoma should be used with caution.

Published

2015

44. [Personalized therapy for gliomas].

Author

Wick W and Hau P

Subjects

Biomarkers, Tumor genetics, Brain Neoplasms diagnosis, Genetic Testing methods, Glioma diagnosis, Humans, Molecular Diagnostic Techniques methods, Brain Neoplasms genetics, Brain Neoplasms therapy, Glioma genetics, Glioma therapy, Molecular Targeted Therapy methods, Precision Medicine methods

Abstract

Current therapies for patients with malignant gliomas are starting to integrate molecular factors and age. Nonetheless, these therapies are still not sufficiently individualized. Some positive examples of transfer from basic science to clinical application are currently integrated into the standard treatment and guidelines. These are mainly genetic and other molecular factors that improve diagnosis and classification of gliomas and markers supporting prognostication. Examples for predictive biomarkers are methylation of the O-6-methylguanine-DNA methyltransferase (MGMT) promoter and the codeletion of chromosome arms 1p and 19q (1p/19q codel). The autoactive, truncated form of epidermal growth factor receptor (EGFRvIII) and the R132H mutation of isocitrate dehydrogenase 1 (IDH-1) are used as targets in currently running immunotherapeutic, targeted trials. Integration of functional imaging parameters into the monitoring and development of uniform assessment criteria improve the ability to evaluate therapy response and implement imaging biomarkers to guide therapies. As a result of the current efforts there are better classified prognostic groups and improved survival times with maintained functional and quality of life parameters in some glioma subgroups. Given the current dynamics, an improved, better differentiated classification of brain tumors including molecular parameters as well as more rational precise guiding of therapies with early, uniform response assessment is expected in the near future.

Published

2015

45. IDH mutant diffuse and anaplastic astrocytomas have similar age at presentation and little difference in survival: a grading problem for WHO.

Author

Reuss DE, Mamatjan Y, Schrimpf D, Capper D, Hovestadt V, Kratz A, Sahm F, Koelsche C, Korshunov A, Olar A, Hartmann C, Reijneveld JC, Wesseling P, Unterberg A, Platten M, Wick W, Herold-Mende C, Aldape K, and von Deimling A

Subjects

Adolescent, Adult, Age Distribution, Astrocytoma classification, Brain Neoplasms classification, Chromosomes, Human, Pair 1, Female, Humans, Male, Middle Aged, Survival Analysis, World Health Organization, Young Adult, Astrocytoma genetics, Astrocytoma mortality, Brain Neoplasms genetics, Brain Neoplasms mortality, Isocitrate Dehydrogenase genetics, Mutation genetics

Abstract

The WHO 2007 classification of tumors of the CNS distinguishes between diffuse astrocytoma WHO grade II (A II(WHO2007)) and anaplastic astrocytoma WHO grade III (AA III(WHO2007)). Patients with A II(WHO2007) are significantly younger and survive significantly longer than those with AA III(WHO2007). So far, classification and grading relies on morphological grounds only and does not yet take into account IDH status, a molecular marker of prognostic relevance. We here demonstrate that WHO 2007 grading performs poorly in predicting prognosis when applied to astrocytoma carrying IDH mutations. Three independent series including a total of 1360 adult diffuse astrocytic gliomas with IDH mutation containing 683 A II(IDHmut), 562 AA III(IDHmut) and 115 GBM(IDHmut) have been examined for age distribution and survival. In all three series patients with A II(IDHmut )and AA III(IDHmut) were of identical age at presentation of disease (36-37 years) and the difference in survival between grades was much less (10.9 years for A II(IDHmut), 9.3 years for AA III(IDHmut)) than that reported for A II(WHO2007) versus AA III(WHO2007). Our analyses imply that the differences in age and survival between A II(WHO2007) and AA III(WHO2007) predominantly depend on the fraction of IDH-non-mutant astrocytomas in the cohort. This data poses a substantial challenge for the current practice of astrocytoma grading and risk stratification and is likely to have far-reaching consequences on the management of patients with IDH-mutant astrocytoma.

Published

2015

46. [Neuro-oncology].

Author

Wick W and Weller M

Subjects

Chemoradiotherapy, Humans, Immunotherapy, Brain Neoplasms diagnosis, Brain Neoplasms therapy, Diagnostic Imaging, Medical Oncology trends, Molecular Diagnostic Techniques, Neurology trends

Published

2015

47. Molecular classification of diffuse cerebral WHO grade II/III gliomas using genome- and transcriptome-wide profiling improves stratification of prognostically distinct patient groups.

Author

Weller M, Weber RG, Willscher E, Riehmer V, Hentschel B, Kreuz M, Felsberg J, Beyer U, Löffler-Wirth H, Kaulich K, Steinbach JP, Hartmann C, Gramatzki D, Schramm J, Westphal M, Schackert G, Simon M, Martens T, Boström J, Hagel C, Sabel M, Krex D, Tonn JC, Wick W, Noell S, Schlegel U, Radlwimmer B, Pietsch T, Loeffler M, von Deimling A, Binder H, and Reifenberger G

Subjects

Adult, Aged, Aged, 80 and over, Female, Glioma classification, Glioma pathology, Glioma physiopathology, Humans, Male, Middle Aged, Mutation, Neoplasm Grading methods, Prognosis, Promoter Regions, Genetic, Sequence Deletion, World Health Organization, Young Adult, Brain Neoplasms genetics, Gene Expression Profiling methods, Genomics methods, Glioma genetics, Isocitrate Dehydrogenase genetics

Abstract

Cerebral gliomas of World Health Organization (WHO) grade II and III represent a major challenge in terms of histological classification and clinical management. Here, we asked whether large-scale genomic and transcriptomic profiling improves the definition of prognostically distinct entities. We performed microarray-based genome- and transcriptome-wide analyses of primary tumor samples from a prospective German Glioma Network cohort of 137 patients with cerebral gliomas, including 61 WHO grade II and 76 WHO grade III tumors. Integrative bioinformatic analyses were employed to define molecular subgroups, which were then related to histology, molecular biomarkers, including isocitrate dehydrogenase 1 or 2 (IDH1/2) mutation, 1p/19q co-deletion and telomerase reverse transcriptase (TERT) promoter mutations, and patient outcome. Genomic profiling identified five distinct glioma groups, including three IDH1/2 mutant and two IDH1/2 wild-type groups. Expression profiling revealed evidence for eight transcriptionally different groups (five IDH1/2 mutant, three IDH1/2 wild type), which were only partially linked to the genomic groups. Correlation of DNA-based molecular stratification with clinical outcome allowed to define three major prognostic groups with characteristic genomic aberrations. The best prognosis was found in patients with IDH1/2 mutant and 1p/19q co-deleted tumors. Patients with IDH1/2 wild-type gliomas and glioblastoma-like genomic alterations, including gain on chromosome arm 7q (+7q), loss on chromosome arm 10q (-10q), TERT promoter mutation and oncogene amplification, displayed the worst outcome. Intermediate survival was seen in patients with IDH1/2 mutant, but 1p/19q intact, mostly astrocytic gliomas, and in patients with IDH1/2 wild-type gliomas lacking the +7q/-10q genotype and TERT promoter mutation. This molecular subgrouping stratified patients into prognostically distinct groups better than histological classification. Addition of gene expression data to this genomic classifier did not further improve prognostic stratification. In summary, DNA-based molecular profiling of WHO grade II and III gliomas distinguishes biologically distinct tumor groups and provides prognostically relevant information beyond histological classification as well as IDH1/2 mutation and 1p/19q co-deletion status.

Published

2015

48. ATRX and IDH1-R132H immunohistochemistry with subsequent copy number analysis and IDH sequencing as a basis for an "integrated" diagnostic approach for adult astrocytoma, oligodendroglioma and glioblastoma.

Author

Reuss DE, Sahm F, Schrimpf D, Wiestler B, Capper D, Koelsche C, Schweizer L, Korshunov A, Jones DT, Hovestadt V, Mittelbronn M, Schittenhelm J, Herold-Mende C, Unterberg A, Platten M, Weller M, Wick W, Pfister SM, and von Deimling A

Subjects

Adolescent, Adult, Aged, Aged, 80 and over, Algorithms, Astrocytoma genetics, Astrocytoma metabolism, Astrocytoma pathology, Brain Neoplasms genetics, Brain Neoplasms metabolism, Brain Neoplasms pathology, DNA Copy Number Variations, DNA Helicases genetics, Female, Glioblastoma genetics, Glioblastoma metabolism, Glioblastoma pathology, Humans, Immunohistochemistry methods, Isocitrate Dehydrogenase genetics, Male, Middle Aged, Mutation, Nuclear Proteins genetics, Oligodendroglioma genetics, Oligodendroglioma metabolism, Oligodendroglioma pathology, Prognosis, X-linked Nuclear Protein, Young Adult, Astrocytoma diagnosis, Brain Neoplasms diagnosis, DNA Helicases metabolism, Glioblastoma diagnosis, Isocitrate Dehydrogenase metabolism, Nuclear Proteins metabolism, Oligodendroglioma diagnosis

Abstract

Diffuse gliomas are represented in the 2007 WHO classification as astrocytomas, oligoastrocytomas and oligodendrogliomas of grades II and III and glioblastomas WHO grade IV. Molecular data on these tumors have a major impact on prognosis and therapy of the patients. Consequently, the inclusion of molecular parameters in the WHO definition of brain tumors is being planned and has been forwarded as the "ISN-Haarlem" consensus. We, here, analyze markers of special interest including ATRX, IDH and 1p/19q codeletion in a series of 405 adult patients. Among the WHO 2007 classified tumors were 152 astrocytomas, 61 oligodendrogliomas, 63 oligoastrocytomas and 129 glioblastomas. Following the concepts of the "ISN-Haarlem", we rediagnosed the series to obtain "integrated" diagnoses with 155 tumors being astrocytomas, 100 oligodendrogliomas and 150 glioblastomas. In a subset of 100 diffuse gliomas from the NOA-04 trial with long-term follow-up data available, the "integrated" diagnosis had a significantly greater prognostic power for overall and progression-free survival compared to WHO 2007. Based on the "integrated" diagnoses, loss of ATRX expression was close to being mutually exclusive to 1p/19q codeletion, with only 2 of 167 ATRX-negative tumors exhibiting 1p/19q codeletion. All but 4 of 141 patients with loss of ATRX expression and diffuse glioma carried either IDH1 or IDH2 mutations. Interestingly, the majority of glioblastoma patients with loss of ATRX expression but no IDH mutations exhibited an H3F3A mutation. Further, all patients with 1p/19 codeletion carried a mutation in IDH1 or IDH2. We present an algorithm based on stepwise analysis with initial immunohistochemistry for ATRX and IDH1-R132H followed by 1p/19q analysis followed by IDH sequencing which reduces the number of molecular analyses and which has a far better association with patient outcome than WHO 2007.

Published

2015

49. Integrated DNA methylation and copy-number profiling identify three clinically and biologically relevant groups of anaplastic glioma.

Author

Wiestler B, Capper D, Sill M, Jones DT, Hovestadt V, Sturm D, Koelsche C, Bertoni A, Schweizer L, Korshunov A, Weiß EK, Schliesser MG, Radbruch A, Herold-Mende C, Roth P, Unterberg A, Hartmann C, Pietsch T, Reifenberger G, Lichter P, Radlwimmer B, Platten M, Pfister SM, von Deimling A, Weller M, and Wick W

Subjects

Adult, Chromosome Deletion, Chromosomes, Human, Pair 1 genetics, Chromosomes, Human, Pair 19 genetics, CpG Islands genetics, DNA Helicases genetics, DNA Modification Methylases genetics, DNA Repair Enzymes genetics, Female, Germany, Humans, Kaplan-Meier Estimate, Male, Middle Aged, Mutation genetics, Nuclear Proteins genetics, Telomerase genetics, Tumor Suppressor Proteins genetics, X-linked Nuclear Protein, Brain Neoplasms classification, Brain Neoplasms genetics, DNA Copy Number Variations genetics, DNA Methylation genetics, Glioma classification, Glioma genetics

Abstract

The outcome of patients with anaplastic gliomas varies considerably. Whether a molecular classification of anaplastic gliomas based on large-scale genomic or epigenomic analyses is superior to histopathology for reflecting distinct biological groups, predicting outcomes and guiding therapy decisions has yet to be determined. Epigenome-wide DNA methylation analysis, using a platform which also allows the detection of copy-number aberrations, was performed in a cohort of 228 patients with anaplastic gliomas (astrocytomas, oligoastrocytomas, and oligodendrogliomas), including 115 patients of the NOA-04 trial. We further compared these tumors with a group of 55 glioblastomas. Unsupervised clustering of DNA methylation patterns revealed two main groups correlated with IDH status: CpG island methylator phenotype (CIMP) positive (77.5 %) or negative (22.5 %). CIMP(pos) (IDH mutant) tumors showed a further separation based on copy-number status of chromosome arms 1p and 19q. CIMP(neg) (IDH wild type) tumors showed hallmark copy-number alterations of glioblastomas, and clustered together with CIMP(neg) glioblastomas without forming separate groups based on WHO grade. Notably, there was no molecular evidence for a distinct biological entity representing anaplastic oligoastrocytoma. Tumor classification based on CIMP and 1p/19q status was significantly associated with survival, allowing a better prediction of outcome than the current histopathological classification: patients with CIMP(pos) tumors with 1p/19q codeletion (CIMP-codel) had the best prognosis, followed by patients with CIMP(pos) tumors but intact 1p/19q status (CIMP-non-codel). Patients with CIMP(neg) anaplastic gliomas (GBM-like) had the worst prognosis. Collectively, our data suggest that anaplastic gliomas can be grouped by IDH and 1p/19q status into three molecular groups that show clear links to underlying biology and a significant association with clinical outcome in a prospective trial cohort.

Published

2014

50. Farewell to oligoastrocytoma: in situ molecular genetics favor classification as either oligodendroglioma or astrocytoma.

Author

Sahm F, Reuss D, Koelsche C, Capper D, Schittenhelm J, Heim S, Jones DT, Pfister SM, Herold-Mende C, Wick W, Mueller W, Hartmann C, Paulus W, and von Deimling A

Subjects

Chromosome Deletion, Chromosomes, Human, Pair 1, Chromosomes, Human, Pair 19, DNA Helicases genetics, Female, Humans, Isocitrate Dehydrogenase genetics, Male, Molecular Biology, Mutation genetics, Nuclear Proteins genetics, Retrospective Studies, Tumor Suppressor Protein p53 genetics, X-linked Nuclear Protein, Astrocytoma classification, Astrocytoma genetics, Brain Neoplasms classification, Brain Neoplasms genetics, Oligodendroglioma classification, Oligodendroglioma genetics

Abstract

Astrocytoma and oligodendroglioma are histologically and genetically well-defined entities. The majority of astrocytomas harbor concurrent TP53 and ATRX mutations, while most oligodendrogliomas carry the 1p/19q co-deletion. Both entities share high frequencies of IDH mutations. In contrast, oligoastrocytomas (OA) appear less clearly defined and, therefore, there is an ongoing debate whether these tumors indeed constitute an entity or whether they represent a mixed bag containing both astrocytomas and oligodendrogliomas. We investigated 43 OA diagnosed in different institutions employing histology, immunohistochemistry and in situ hybridization addressing surrogates for the molecular genetic markers IDH1R132H, TP53, ATRX and 1p/19q loss. In all but one OA the combination of nuclear p53 accumulation and ATRX loss was mutually exclusive with 1p/19q co-deletion. In 31/43 OA, only alterations typical for oligodendroglioma were observed, while in 11/43 OA, only indicators for mutations typical for astrocytomas were detected. A single case exhibited a distinct pattern, nuclear expression of p53, ATRX loss, IDH1 mutation and partial 1p/19q loss. However, this was the only patient undergoing radiotherapy prior to surgery, possibly contributing to the acquisition of this uncommon combination. In OA with oligodendroglioma typical alterations, the portions corresponding to astrocytic part were determined as reactive, while in OA with astrocytoma typical alterations the portions corresponding to oligodendroglial differentiation were neoplastic. These data provide strong evidence against the existence of an independent OA entity.

Published

2014