Your search keyword '"Stichel, Damian"' showing total 76 results

1. Clinical implementation of integrated molecular‐morphologic risk prediction for meningioma.

Author

Hielscher, Thomas, Sill, Martin, Sievers, Philipp, Stichel, Damian, Brandner, Sebastian, Jones, David T. W., von Deimling, Andreas, Sahm, Felix, and Maas, Sybren L. N.

Subjects

MENINGIOMA, DISEASE risk factors, BRAIN tumors, COMMUNITIES, FORECASTING

Abstract

Risk prediction for meningioma tumors was until recently almost exclusively based on morphological features of the tumor. To improve risk prediction, multiple models have been established that incorporate morphological and molecular features for an integrated risk prediction score. One such model is the integrated molecular‐morphologic meningioma integrated score (IntS), which allocates points to the histological grade, epigenetic methylation family and specific copy‐number variations. After publication of the IntS, questions arose in the neuropathological community about the practical and clinical implementation of the IntS, specifically regarding the calling of CNVs, the applicability of the newly available version (v12.5) of the brain tumor classifier and the need for incorporation of TERT‐promoter and CDKN2A/B status analysis in the IntS calculation. To investigate and validate these questions additional analyses of the discovery (n = 514), retrospective validation (n = 184) and prospective validation (n = 287) cohorts used for IntS discovery and validation were performed. Our findings suggest that any loss over 5% of the chromosomal arm suffices for the calling of a CNV, that input from the v12.5 classifier is as good or better than the dedicated meningioma classifier (v2.4) and that there is most likely no need for additional testing for TERT‐promoter mutations and/or homozygous losses of CDKN2A/B when defining the IntS for an individual patient. The findings from this study help facilitate the clinical implementation of IntS‐based risk prediction for meningioma patients. [ABSTRACT FROM AUTHOR]

Published

2023

2. Correction to: Amplification of the PLAG-family genes—PLAGL1 and PLAGL2—is a key feature of the novel tumor type CNS embryonal tumor with PLAGL amplification.

Author

Keck, Michaela-Kristina, Sill, Martin, Wittmann, Andrea, Joshi, Piyush, Stichel, Damian, Beck, Pengbo, Okonechnikow, Konstantin, Sievers, Philipp, Wefers, Annika K., Roncaroli, Federico, Avula, Shivaram, McCabe, Martin G., Hayden, James T., Wesseling, Pieter, Øra, Ingrid, Nistér, Monica, Kranendonk, Mariëtte E. G., Tops, Bastiaan B. J., Zapotocky, Michal, and Zamecnik, Josef

Subjects

GENE amplification, TUMORS, LOG-rank test, TUMOR suppressor genes

Abstract

Correction to: Amplification of the PLAG-family genes - PLAGL1 and PLAGL2 - is a key feature of the novel tumor type CNS embryonal tumor with PLAGL amplification 6 Clinical outcomes of patients with CNS embryonal tumor with PLAGL gene amplification. a Kaplan-Meier plots showing OS and PFS stratified by subgroup and sex. Information about chemotherapy (CT) and radiotherapy (RT) treatment regarding the entire follow-up time is displayed in the squares on the left where available The original article has been corrected. [Extracted from the article]

Published

2023

3. Amplification of the PLAG-family genes—PLAGL1 and PLAGL2—is a key feature of the novel tumor type CNS embryonal tumor with PLAGL amplification.

Author

Keck, Michaela-Kristina, Sill, Martin, Wittmann, Andrea, Joshi, Piyush, Stichel, Damian, Beck, Pengbo, Okonechnikow, Konstantin, Sievers, Philipp, Wefers, Annika K., Roncaroli, Federico, Avula, Shivaram, McCabe, Martin G., Hayden, James T., Wesseling, Pieter, Øra, Ingrid, Nistér, Monica, Kranendonk, Mariëtte E. G., Tops, Bastiaan B. J., Zapotocky, Michal, and Zamecnik, Josef

Subjects

GENE amplification, WNT signal transduction, CHILD mortality, CEREBRAL hemispheres, NEURONAL differentiation, CENTRAL nervous system, TUMOR classification

Abstract

Pediatric central nervous system (CNS) tumors represent the most common cause of cancer-related death in children aged 0–14 years. They differ from their adult counterparts, showing extensive clinical and molecular heterogeneity as well as a challenging histopathological spectrum that often impairs accurate diagnosis. Here, we use DNA methylation-based CNS tumor classification in combination with copy number, RNA-seq, and ChIP-seq analysis to characterize a newly identified CNS tumor type. In addition, we report histology, patient characteristics, and survival data in this tumor type. We describe a biologically distinct pediatric CNS tumor type (n = 31 cases) that is characterized by focal high-level amplification and resultant overexpression of either PLAGL1 or PLAGL2, and an absence of recurrent genetic alterations characteristic of other pediatric CNS tumor types. Both genes act as transcription factors for a regulatory subset of imprinted genes (IGs), components of the Wnt/β-Catenin pathway, and the potential drug targets RET and CYP2W1, which are also specifically overexpressed in this tumor type. A derived PLAGL-specific gene expression signature indicates dysregulation of imprinting control and differentiation/development. These tumors occurred throughout the neuroaxis including the cerebral hemispheres, cerebellum, and brainstem, and were predominantly composed of primitive embryonal-like cells lacking robust expression of markers of glial or neuronal differentiation (e.g., GFAP, OLIG2, and synaptophysin). Tumors with PLAGL1 amplification were typically diagnosed during adolescence (median age 10.5 years), whereas those with PLAGL2 amplification were diagnosed during early childhood (median age 2 years). The 10-year overall survival was 66% for PLAGL1-amplified tumors, 25% for PLAGL2-amplified tumors, 18% for male patients, and 82% for female patients. In summary, we describe a new type of biologically distinct CNS tumor characterized by PLAGL1/2 amplification that occurs predominantly in infants and toddlers (PLAGL2) or adolescents (PLAGL1) which we consider best classified as a CNS embryonal tumor and which is associated with intermediate survival. The cell of origin and optimal treatment strategies remain to be defined. [ABSTRACT FROM AUTHOR]

Published

2023

4. HIP1R and vimentin immunohistochemistry predict 1p/19q status in IDH-mutant glioma.

Author

Felix, Marius, Friedel, Dennis, Jayavelu, Ashok Kumar, Filipski, Katharina, Reinhardt, Annekathrin, Warnken, Uwe, Stichel, Damian, Schrimpf, Daniel, Korshunov, Andrey, Wang, Yueting, Kessler, Tobias, Etminan, Nima, Unterberg, Andreas, Herold-Mende, Christel, Heikaus, Laura, Sahm, Felix, Wick, Wolfgang, Harter, Patrick N, Deimling, Andreas von, and Reuss, David E

Published

2022

5. Anaplastic ganglioglioma—A diagnosis comprising several distinct tumour types.

Author

Reinhardt, Annekathrin, Pfister, Kristin, Schrimpf, Daniel, Stichel, Damian, Sahm, Felix, Reuss, David E., Capper, David, Wefers, Annika K., Ebrahimi, Azadeh, Sill, Martin, Felsberg, Joerg, Reifenberger, Guido, Becker, Albert, Prinz, Marco, Staszewski, Ori, Hartmann, Christian, Schittenhelm, Jens, Gramatzki, Dorothee, Weller, Michael, and Olar, Adriana

Subjects

DNA, ISOCITRATE dehydrogenase, PROGNOSIS, TUMORS, CENTRAL nervous system

Abstract

Aims: Anaplastic ganglioglioma is a rare tumour, and diagnosis has been based on histological criteria. The 5th edition of the World Health Organization Classification of Tumours of the Central Nervous System (CNS WHO) does not list anaplastic ganglioglioma as a distinct diagnosis due to lack of molecular data in previous publications. We retrospectively compiled a cohort of 54 histologically diagnosed anaplastic gangliogliomas to explore whether the molecular profiles of these tumours represent a separate type or resolve into other entities. Methods: Samples were subjected to histological review, desoxyribonucleic acid (DNA) methylation profiling and next‐generation sequencing. Morphological and molecular data were summarised to an integrated diagnosis. Results: The majority of tumours designated as anaplastic gangliogliomas resolved into other CNS WHO diagnoses, most commonly pleomorphic xanthoastrocytoma (16/54), glioblastoma, isocitrate dehydrogenase protein (IDH) wild type and diffuse paediatric‐type high‐grade glioma, H3 wild type and IDH wild type (11 and 2/54), followed by low‐grade glial or glioneuronal tumours including pilocytic astrocytoma, dysembryoplastic neuroepithelial tumour and diffuse leptomeningeal glioneuronal tumour (5/54), IDH mutant astrocytoma (4/54) and others (6/54). A subset of tumours (10/54) was not assignable to a CNS WHO diagnosis, and common molecular profiles pointing to a separate entity were not evident. Conclusions: In summary, we show that tumours histologically diagnosed as anaplastic ganglioglioma comprise a wide spectrum of CNS WHO tumour types with different prognostic and therapeutic implications. We therefore suggest assigning this designation with caution and recommend comprehensive molecular workup. [ABSTRACT FROM AUTHOR]

Published

2022

6. Prognostic impact of copy number alterations and tumor mutational burden in carcinoma of unknown primary.

Author

Bochtler, Tilmann, Wohlfromm, Timothy, Hielscher, Thomas, Stichel, Damian, Pouyiourou, Maria, Kraft, Bianca, Neumann, Olaf, Endris, Volker, von Deimling, Andreas, Stenzinger, Albrecht, and Krämer, Alwin

Published

2022

7. Gene expression profiling of Group 3 medulloblastomas defines a clinically tractable stratification based on KIRREL2 expression.

Author

Korshunov, Andrey, Okonechnikov, Konstantin, Stichel, Damian, Schrimpf, Daniel, Delaidelli, Alberto, Tonn, Svenja, Mynarek, Martin, Sievers, Philipp, Sahm, Felix, Jones, David T. W., von Deimling, Andreas, Pfister, Stefan M., and Kool, Marcel

Subjects

GENE expression profiling, PROGNOSIS, SURVIVAL analysis (Biometry), BIOMARKERS, PROTEIN expression, THERAPEUTICS

Abstract

Medulloblastomas (MB) molecularly designated as Group 3 (Grp 3) MB represent a more clinically aggressive tumor variant which, as a group, displays heterogeneous molecular characteristics and disease outcomes. Reliable risk stratification of Grp 3 MB would allow for appropriate assignment of patients to aggressive treatment protocols and, vice versa, for sparing adverse effects of high-dose radio-chemotherapy in patients with standard or low-risk tumors. Here we performed RNA-based analysis on an international cohort of 179 molecularly designated Grp 3 MB treated with HIT protocols. We analyzed the clinical significance of differentially expressed genes, thereby developing optimal prognostic subdivision of this MB molecular group. We compared the transcriptome profiles of two Grp 3 MB subsets with various outcomes (76 died within the first 60 months vs. 103 survived this period) and identified 224 differentially expressed genes (DEG) between these two clinical groups (Limma R algorithm, adjusted p-value < 0.05). We selected the top six DEG overexpressed in the unfavorable cohort for further survival analysis and found that expression of all six genes strongly correlated with poor outcomes. However, only high expression of KIRREL2 was identified as an independent molecular prognostic indicator of poor patients' survival. Based on clinical and molecular patterns, four risk categories were outlined for Grp 3 MB patients: i. low-risk: M0-1/MYC non-amplified/KIRREL2 low (n = 48; 5-year OS—95%); ii. standard-risk: M0-1/MYC non-amplified/KIRREL2 high or M2-3/MYC non-amplified/KIRREL2 low (n = 65; 5-year OS—70%); iii. high-risk: M2-3/MYC non-amplified/KIRREL2 high (n = 36; 5-year OS—30%); iv. very high risk—all MYC amplified tumors (n = 30; 5-year OS—0%). Cross-validated survival models incorporating KIRREL2 expression with clinical features allowed for the reclassification of up to 50% of Grp 3 MB patients into a more appropriate risk category. Finally, KIRREL2 immunopositivity was also identified as a predictive indicator of Grp 3 MB poor survival, thus suggesting its application as a possible prognostic marker in routine clinical settings. Our results indicate that integration of KIRREL2 expression in risk stratification models may improve Grp 3 MB outcome prediction. Therefore, simple gene and/or protein expression analyses for this molecular marker could be easily adopted for Grp 3 MB prognostication and may help in assigning patients to optimal therapeutic approaches in prospective clinical trials. [ABSTRACT FROM AUTHOR]

Published

2022

8. Rapid-CNS2: rapid comprehensive adaptive nanopore-sequencing of CNS tumors, a proof-of-concept study.

Author

Patel, Areeba, Dogan, Helin, Payne, Alexander, Krause, Elena, Sievers, Philipp, Schoebe, Natalie, Schrimpf, Daniel, Blume, Christina, Stichel, Damian, Holmes, Nadine, Euskirchen, Philipp, Hench, Jürgen, Frank, Stephan, Rosenstiel-Goidts, Violaine, Ratliff, Miriam, Etminan, Nima, Unterberg, Andreas, Dieterich, Christoph, Herold-Mende, Christel, and Pfister, Stefan M.

Subjects

NERVOUS system tumors

Abstract

The glioma samples run with the Rapid CNS A panel as target region were each loaded onto FLO-MIN106 R9.4.1 flow cells and sequencing was controlled in real-time by ReadFish (using a GPU powered consumer notebook). "PANEL A" indicates samples sequenced using Rapid CNS A, and "PANEL B" indicates samples sequenced using Rapid CNS B (sample by Rapid-CNS2 and 850 k identified as AT/RT excluded, depicted in Supplementary Fig. One sample identified as a glioma by histology was correctly classified as an atypical teratoid/rhabdoid tumor by Rapid-CNS SP 2 sp (confirmed by EPIC array analysis, Supplementary Fig. [Extracted from the article]

Published

2022

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

Author

Suwala, Abigail K., Felix, Marius, Friedel, Dennis, Stichel, Damian, Schrimpf, Daniel, Hinz, Felix, Hewer, Ekkehard, Schweizer, Leonille, Dohmen, Hildegard, Pohl, Ute, Staszewski, Ori, Korshunov, Andrey, Stein, Marco, Wongsurawat, Thidathip, Cheunsuacchon, Pornsuk, Sathornsumetee, Sith, Koelsche, Christian, Turner, Clinton, Le Rhun, Emilie, and Mühlebner, Angelika

Subjects

PLANT chromosomes, DNA methylation, OLIGODENDROGLIOMAS, OVERALL survival, SMOOTH muscle, DISEASE relapse

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. [ABSTRACT FROM AUTHOR]

Published

2022

10. Integrative analysis reveals early and distinct genetic and epigenetic changes in intraductal papillary and tubulopapillary cholangiocarcinogenesis.

Author

Goeppert, Benjamin, Stichel, Damian, Toth, Reka, Fritzsche, Sarah, Loeffler, Moritz Anton, Schlitter, Anna Melissa, Neumann, Olaf, Assenov, Yassen, Voge, Monika Nadja, Mehrabi, Arianeb, Hoffmann, Katrin, Köhler, Bruno, Springfeld, Christoph, Weichenhan, Dieter, Plass, Christoph, Esposito, Irene, Schirmacher, Peter, von Deimling, Andreas, and Roessler, Stephanie

Subjects

CHOLANGITIS, EPIGENETICS, MORPHOLOGY, INTRAHEPATIC bile ducts, BILIARY tract cancer, HER2 gene

Published

2022

11. Genetic and epigenetic characterization of posterior pituitary tumors.

Author

Schmid, Simone, Solomon, David A., Perez, Eilis, Thieme, Anne, Kleinschmidt-DeMasters, Bette K., Giannini, Caterina, Reinhardt, Annekathrin, Asa, Sylvia L., Mete, Ozgur, Stichel, Damian, Siewert, Christin, Dittmayer, Carsten, Hasselblatt, Martin, Paulus, Werner, Nagel, Christoph, Harter, Patrick N., Schittenhelm, Jens, Honegger, Jürgen, Rushing, Elisabeth, and Coras, Roland

Subjects

PITUITARY tumors, DRUG target, DNA methylation, EPIGENETICS, CELL tumors, DNA folding

Abstract

Pituicytoma (PITUI), granular cell tumor (GCT), and spindle cell oncocytoma (SCO) are rare tumors of the posterior pituitary. Histologically, they may be challenging to distinguish and have been proposed to represent a histological spectrum of a single entity. We performed targeted next-generation sequencing, DNA methylation profiling, and copy number analysis on 47 tumors (14 PITUI; 12 GCT; 21 SCO) to investigate molecular features and explore possibilities of clinically meaningful tumor subclassification. We detected two main epigenomic subgroups by unsupervised clustering of DNA methylation data, though the overall methylation differences were subtle. The largest group (n = 23) contained most PITUIs and a subset of SCOs and was enriched for pathogenic mutations within genes in the MAPK/PI3K pathways (12/17 [71%] of sequenced tumors: FGFR1 (3), HRAS (3), BRAF (2), NF1 (2), CBL (1), MAP2K2 (1), PTEN (1)) and two with accompanying TERT promoter mutation. The second group (n = 16) contained most GCTs and a subset of SCOs, all of which mostly lacked identifiable genetic drivers. Outcome analysis demonstrated that the presence of chromosomal imbalances was significantly associated with reduced progression-free survival especially within the combined PITUI and SCO group (p = 0.031). In summary, we observed only subtle DNA methylation differences between posterior pituitary tumors, indicating that these tumors may be best classified as subtypes of a single entity. Nevertheless, our data indicate differences in mutation patterns and clinical outcome. For a clinically meaningful subclassification, we propose a combined histo-molecular approach into three subtypes: one subtype is defined by granular cell histology, scarcity of identifiable oncogenic mutations, and favorable outcome. The other two subtypes have either SCO or PITUI histology but are segregated by chromosomal copy number profile into a favorable group (no copy number changes) and a less favorable group (copy number imbalances present). Both of the latter groups have recurrent MAPK/PI3K genetic alterations that represent potential therapeutic targets. [ABSTRACT FROM AUTHOR]

Published

2021

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

Author

Sievers, Philipp, Stichel, Damian, Sill, Martin, Schrimpf, Daniel, Sturm, Dominik, Selt, Florian, Ecker, Jonas, Kazdal, Daniel, Miele, Evelina, Kranendonk, Mariëtte E. G., Tops, Bastiaan B. J., Kohlhof-Meinecke, Patricia, Beschorner, Rudi, Kramm, Christof M., Hasselblatt, Martin, Reifenberger, Guido, Capper, David, Wesseling, Pieter, Stenzinger, Albrecht, and Milde, Till

Subjects

DRUG target, GLIOMAS, CENTRAL nervous system tumors, BRAIN tumors, METHYLGUANINE

Abstract

Six of the samples grouped with the DNA methylation class infantile hemispheric glioma, other tumors clustered with various reference classes of glioma from low- to high-grade (Fig. To identify gliomas with structural alterations affecting chromosome 6q (around the I ROS1 i locus), we systematically evaluated copy-number data of our DNA methylation dataset encompassing 20,723 gliomas, irrespective of specific entity and WHO grade (Supplementary Fig. Similarly, no data exist to determine whether I ROS1 i fusion-positive gliomas, irrespective of histology, may share further biological features, potentially supporting a "ROS1-subtype" of gliomas. [Extracted from the article]

Published

2021

13. Intimal sarcomas and undifferentiated cardiac sarcomas carry mutually exclusive MDM2, MDM4, and CDK6 amplifications and share a common DNA methylation signature.

Author

Koelsche, Christian, Benhamida, Jamal K., Kommoss, Felix K. F., Stichel, Damian, Jones, David T. W., Pfister, Stefan M., Heilig, Christoph E., Fröhling, Stefan, Stenzinger, Albrecht, Buslei, Rolf, Mentzel, Thomas, Baumhoer, Daniel, Ladanyi, Marc, Antonescu, Cristina R., Flucke, Uta, Gorp, Joost van, Bode-Lesniewska, Beata, Deimling, Andreas von, and Mechtersheimer, Gunhild

Published

2021

14. Subgroup and subtype-specific outcomes in adult medulloblastoma.

Author

Coltin, Hallie, Sundaresan, Lakshmikirupa, Smith, Kyle S., Skowron, Patryk, Massimi, Luca, Eberhart, Charles G., Schreck, Karisa C., Gupta, Nalin, Weiss, William A., Tirapelli, Daniela, Carlotti, Carlos, Li, Kay K. W., Ryzhova, Marina, Golanov, Andrey, Zheludkova, Olga, Absalyamova, Oksana, Okonechnikov, Konstantin, Stichel, Damian, von Deimling, Andreas, and Giannini, Caterina

Subjects

ADULTS, MEDULLOBLASTOMA, OLDER patients, BRAIN tumors, DNA copy number variations, CYTOGENETICS, CENTRAL nervous system, CHILD patients, DIAGNOSIS

Abstract

Medulloblastoma, a common pediatric malignant central nervous system tumour, represent a small proportion of brain tumours in adults. Previously it has been shown that in adults, Sonic Hedgehog (SHH)-activated tumours predominate, with Wingless-type (WNT) and Group 4 being less common, but molecular risk stratification remains a challenge. We performed an integrated analysis consisting of genome-wide methylation profiling, copy number profiling, somatic nucleotide variants and correlation of clinical variables across a cohort of 191 adult medulloblastoma cases identified through the Medulloblastoma Advanced Genomics International Consortium. We identified 30 WNT, 112 SHH, 6 Group 3, and 41 Group 4 tumours. Patients with SHH tumours were significantly older at diagnosis compared to other subgroups (p < 0.0001). Five-year progression-free survival (PFS) for WNT, SHH, Group 3, and Group 4 tumours was 64.4 (48.0–86.5), 61.9% (51.6–74.2), 80.0% (95% CI 51.6–100.0), and 44.9% (95% CI 28.6–70.7), respectively (p = 0.06). None of the clinical variables (age, sex, metastatic status, extent of resection, chemotherapy, radiotherapy) were associated with subgroup-specific PFS. Survival among patients with SHH tumours was significantly worse for cases with chromosome 3p loss (HR 2.9, 95% CI 1.1–7.6; p = 0.02), chromosome 10q loss (HR 4.6, 95% CI 2.3–9.4; p < 0.0001), chromosome 17p loss (HR 2.3, 95% CI 1.1–4.8; p = 0.02), and PTCH1 mutations (HR 2.6, 95% CI 1.1–6.2; p = 0.04). The prognostic significance of 3p loss and 10q loss persisted in multivariable regression models. For Group 4 tumours, chromosome 8 loss was strongly associated with improved survival, which was validated in a non-overlapping cohort (combined cohort HR 0.2, 95% CI 0.1–0.7; p = 0.007). Unlike in pediatric medulloblastoma, whole chromosome 11 loss in Group 4 and chromosome 14q loss in SHH was not associated with improved survival, where MYCN, GLI2 and MYC amplification were rare. In sum, we report unique subgroup-specific cytogenetic features of adult medulloblastoma, which are distinct from those in younger patients, and correlate with survival disparities. Our findings suggest that clinical trials that incorporate new strategies tailored to high-risk adult medulloblastoma patients are urgently needed. [ABSTRACT FROM AUTHOR]

Published

2021

15. PATZ1 fusions define a novel molecularly distinct neuroepithelial tumor entity with a broad histological spectrum.

Author

Alhalabi, Karam T., Stichel, Damian, Sievers, Philipp, Peterziel, Heike, Sommerkamp, Alexander C., Sturm, Dominik, Wittmann, Andrea, Sill, Martin, Jäger, Natalie, Beck, Pengbo, Pajtler, Kristian W., Snuderl, Matija, Jour, George, Delorenzo, Michael, Martin, Allison M., Levy, Adam, Dalvi, Nagma, Hansford, Jordan R., Gottardo, Nicholas G., and Uro-Coste, Emmanuelle

Subjects

TUMOR classification, BRAIN tumors, CENTRAL nervous system, NEURAL development, RNA sequencing

Abstract

Large-scale molecular profiling studies in recent years have shown that central nervous system (CNS) tumors display a much greater heterogeneity in terms of molecularly distinct entities, cellular origins and genetic drivers than anticipated from histological assessment. DNA methylation profiling has emerged as a useful tool for robust tumor classification, providing new insights into these heterogeneous molecular classes. This is particularly true for rare CNS tumors with a broad morphological spectrum, which are not possible to assign as separate entities based on histological similarity alone. Here, we describe a molecularly distinct subset of predominantly pediatric CNS neoplasms (n = 60) that harbor PATZ1 fusions. The original histological diagnoses of these tumors covered a wide spectrum of tumor types and malignancy grades. While the single most common diagnosis was glioblastoma (GBM), clinical data of the PATZ1-fused tumors showed a better prognosis than typical GBM, despite frequent relapses. RNA sequencing revealed recurrent MN1:PATZ1 or EWSR1:PATZ1 fusions related to (often extensive) copy number variations on chromosome 22, where PATZ1 and the two fusion partners are located. These fusions have individually been reported in a number of glial/glioneuronal tumors, as well as extracranial sarcomas. We show here that they are more common than previously acknowledged, and together define a biologically distinct CNS tumor type with high expression of neural development markers such as PAX2, GATA2 and IGF2. Drug screening performed on the MN1:PATZ1 fusion-bearing KS-1 brain tumor cell line revealed preliminary candidates for further study. In summary, PATZ1 fusions define a molecular class of histologically polyphenotypic neuroepithelial tumors, which show an intermediate prognosis under current treatment regimens. [ABSTRACT FROM AUTHOR]

Published

2021

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

Author

Sievers, Philipp, Henneken, Sophie C., Blume, Christina, Sill, Martin, Schrimpf, Daniel, Stichel, Damian, Okonechnikov, Konstantin, Reuss, David E., Benzel, Julia, Maaß, Kendra K., Kool, Marcel, Sturm, Dominik, Zheng, Tuyu, Ghasemi, David R., Kohlhof-Meinecke, Patricia, Cruz, Ofelia, Suñol, Mariona, Lavarino, Cinzia, Ruf, Viktoria, and Boldt, Henning B.

Subjects

SURVIVAL rate, EPIGENOMICS, CENTRAL nervous system, GENETIC overexpression, CHILD patients, RNA sequencing, GENE clusters

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. [ABSTRACT FROM AUTHOR]

Published

2021

17. Molecular profiling of pediatric meningiomas shows tumor characteristics distinct from adult meningiomas.

Author

Kirches, Elmar, Sahm, Felix, Korshunov, Andrey, Bluecher, Christina, Waldt, Natalie, Kropf, Siegfried, Schrimpf, Daniel, Sievers, Philipp, Stichel, Damian, Schüller, Ulrich, Schittenhelm, Jens, Riemenschneider, Markus J., Karajannis, Matthias A., Perry, Arie, Pietsch, Torsten, Boekhoff, Svenja, Capper, David, Beck, Katja, Paramasivam, Nagarajan, and Schlesner, Matthias

Subjects

ADULTS, DNA sequencing, DNA methylation, GENOMICS, TUMORS

Abstract

In contrast to adults, meningiomas are uncommon tumors in childhood and adolescence. Whether adult and pediatric meningiomas differ on a molecular level is unclear. Here we report detailed genomic analyses of 37 pediatric meningiomas by sequencing and DNA methylation profiling. Histologically, the series was dominated by meningioma subtypes with aggressive behavior, with 70% of patients suffering from WHO grade II or III meningiomas. The most frequent cytogenetic aberrations were loss of chromosomes 22 (23/37 [62%]), 1 (9/37 [24%]), 18 (7/37 [19%]), and 14 (5/37 [14%]). Tumors with NF2 alterations exhibited overall increased chromosomal instability. Unsupervised clustering of DNA methylation profiles revealed separation into three groups: designated group 1 composed of clear cell and papillary meningiomas, whereas group 2A comprised predominantly atypical meningiomas and group 2B enriched for rare high-grade subtypes (rhabdoid, chordoid). Meningiomas from NF2 patients clustered exclusively within groups 1 and 2A. When compared with a dataset of 105 adult meningiomas, the pediatric meningiomas largely grouped separately. Targeted panel DNA sequencing of 34 tumors revealed frequent NF2 alterations, while other typical alterations found in adult non-NF2 tumors were absent. These data demonstrate that pediatric meningiomas are characterized by molecular features distinct from adult tumors. [ABSTRACT FROM AUTHOR]

Published

2021

18. Radiation-induced gliomas represent H3-/IDH-wild type pediatric gliomas with recurrent PDGFRA amplification and loss of CDKN2A/B.

Author

Deng, Maximilian Y., Sturm, Dominik, Pfaff, Elke, Sill, Martin, Stichel, Damian, Balasubramanian, Gnana Prakash, Tippelt, Stephan, Kramm, Christof, Donson, Andrew M., Green, Adam L., Jones, Chris, Schittenhelm, Jens, Ebinger, Martin, Schuhmann, Martin U., Jones, Barbara C., van Tilburg, Cornelis M., Wittmann, Andrea, Golanov, Andrey, Ryzhova, Marina, and Ecker, Jonas

Abstract

Long-term complications such as radiation-induced second malignancies occur in a subset of patients following radiation-therapy, particularly relevant in pediatric patients due to the long follow-up period in case of survival. Radiation-induced gliomas (RIGs) have been reported in patients after treatment with cranial irradiation for various primary malignancies such as acute lymphoblastic leukemia (ALL) and medulloblastoma (MB). We perform comprehensive (epi-) genetic and expression profiling of RIGs arising after cranial irradiation for MB (n =23) and ALL (n =9). Our study reveals a unifying molecular signature for the majority of RIGs, with recurrent PDGFRA amplification and loss of CDKN2A/B and an absence of somatic hotspot mutations in genes encoding histone 3 variants or IDH1/2, uncovering diagnostic markers and potentially actionable targets. [ABSTRACT FROM AUTHOR]

Published

2021

19. Integrated molecular analysis of adult sonic hedgehog (SHH)-activated medulloblastomas reveals two clinically relevant tumor subsets with VEGFA as potent prognostic indicator.

Author

Korshunov, Andrey, Okonechnikov, Konstantin, Stichel, Damian, Ryzhova, Marina, Schrimpf, Daniel, Sahm, Felix, Sievers, Philipp, Absalyamova, Oksana, Zheludkova, Olga, Golanov, Andrey, Jones, David T W, Pfister, Stefan M, Deimling, Andreas von, and Kool, Marcel

Published

2021

20. Clinicopathologic and molecular analysis of embryonal rhabdomyosarcoma of the genitourinary tract: evidence for a distinct DICER1-associated subgroup.

Author

Kommoss, Felix K. F., Stichel, Damian, Mora, Jaume, Esteller, Manel, Jones, David T. W., Pfister, Stefan M., Brack, Eva, Wachtel, Marco, Bode, Peter Karl, Sinn, Hans-Peter, Schmidt, Dietmar, Mentzel, Thomas, Kommoss, Friedrich, Sahm, Felix, von Deimling, Andreas, and Koelsche, Christian

Published

2021

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

Author

Suwala, Abigail K., Stichel, Damian, Schrimpf, Daniel, Maas, Sybren L. N., Sill, Martin, Dohmen, Hildegard, Banan, Rouzbeh, Reinhardt, Annekathrin, Sievers, Philipp, Hinz, Felix, Blattner-Johnson, Mirjam, Hartmann, Christian, Schweizer, Leonille, Boldt, Henning B., Kristensen, Bjarne Winther, Schittenhelm, Jens, Wood, Matthew D., Chotard, Guillaume, Bjergvig, Rolf, and Das, Anirban

Subjects

NEUROECTODERMAL tumors, OVERALL survival, GENETIC variation, SURVIVAL rate, METHYLATION

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. [ABSTRACT FROM AUTHOR]

Published

2021

22. DNA methylation‐based profiling of bone and soft tissue tumours: a validation study of the 'DKFZ Sarcoma Classifier'.

Author

Lyskjær, Iben, De Noon, Solange, Tirabosco, Roberto, Rocha, Ana Maia, Lindsay, Daniel, Amary, Fernanda, Ye, Hongtao, Schrimpf, Daniel, Stichel, Damian, Sill, Martin, Koelsche, Christian, Pillay, Nischalan, Von Deimling, Andreas, Beck, Stephan, and Flanagan, Adrienne M

Subjects

SOFT tissue tumors, DNA fingerprinting, SARCOMA, BRAIN tumors, TUMORS, EPIGENOMICS

Abstract

Diagnosing bone and soft tissue neoplasms remains challenging because of the large number of subtypes, many of which lack diagnostic biomarkers. DNA methylation profiles have proven to be a reliable basis for the classification of brain tumours and, following this success, a DNA methylation‐based sarcoma classification tool from the Deutsches Krebsforschungszentrum (DKFZ) in Heidelberg has been developed. In this study, we assessed the performance of their classifier on DNA methylation profiles of an independent data set of 986 bone and soft tissue tumours and controls. We found that the 'DKFZ Sarcoma Classifier' was able to produce a diagnostic prediction for 55% of the 986 samples, with 83% of these predictions concordant with the histological diagnosis. On limiting the validation to the 820 cases with histological diagnoses for which the DKFZ Classifier was trained, 61% of cases received a prediction, and the histological diagnosis was concordant with the predicted methylation class in 88% of these cases, findings comparable to those reported in the DKFZ Classifier paper. The classifier performed best when diagnosing mesenchymal chondrosarcomas (CHSs, 88% sensitivity), chordomas (85% sensitivity), and fibrous dysplasia (83% sensitivity). Amongst the subtypes least often classified correctly were clear cell CHSs (14% sensitivity), malignant peripheral nerve sheath tumours (27% sensitivity), and pleomorphic liposarcomas (29% sensitivity). The classifier predictions resulted in revision of the histological diagnosis in six of our cases. We observed that, although a higher tumour purity resulted in a greater likelihood of a prediction being made, it did not correlate with classifier accuracy. Our results show that the DKFZ Classifier represents a powerful research tool for exploring the pathogenesis of sarcoma; with refinement, it has the potential to be a valuable diagnostic tool. [ABSTRACT FROM AUTHOR]

Published

2021

23. Accurate calling of KIAA1549‐BRAF fusions from DNA of human brain tumours using methylation array‐based copy number and gene panel sequencing data.

Author

Stichel, Damian, Schrimpf, Daniel, Sievers, Philipp, Reinhardt, Annekathrin, Suwala, Abigail K., Sill, Martin, Reuss, David E., Korshunov, Andrey, Casalini, Belén M., Sommerkamp, Alexander C., Ecker, Jonas, Selt, Florian, Sturm, Dominik, Gnekow, Astrid, Koch, Arend, Simon, Michèle, Hernáiz Driever, Pablo, Schüller, Ulrich, Capper, David, and Tilburg, Cornelis M.

Subjects

BRAIN tumors, PANEL analysis, HUMAN DNA, GENES, DNA methylation, CIRCULATING tumor DNA, RIBOSOMAL DNA, ANAPLASTIC lymphoma kinase

Abstract

Aims: KIAA1549‐BRAF fusions occur in certain brain tumours and provide druggable targets due to a constitutive activation of the MAP‐kinase pathway. We introduce workflows for calling the KIAA1549‐BRAF fusion from DNA methylation array‐derived copy number as well as DNA panel sequencing data. Methods: Copy number profiles were analysed by automated screening and visual verification of a tandem duplication on chromosome 7q34, indicative of the KIAA1549‐BRAF fusion. Pilocytic astrocytomas of the ICGC cohort with known fusion status were used for validation. KIAA1549‐BRAF fusions were called from DNA panel sequencing data using the fusion callers Manta, Arriba with modified filtering criteria and deFuse. We screened DNA methylation and panel sequencing data of 7790 specimens from brain tumour and sarcoma entities. Results: We identified the fusion in 337 brain tumours with both DNA methylation and panel sequencing data. Among these, we detected the fusion from copy number data in 84% and from DNA panel sequencing data in more than 90% using Arriba with modified filters. While in 74% the KIAA1549‐BRAF fusion was detected from both methylation array‐derived copy number and panel sequencing data, in 9% it was detected from copy number data only and in 16% from panel data only. The fusion was almost exclusively found in pilocytic astrocytomas, diffuse leptomeningeal glioneuronal tumours and high‐grade astrocytomas with piloid features. Conclusions: The KIAA1549‐BRAF fusion can be reliably detected from either DNA methylation array or DNA panel data. The use of both methods is recommended for the most sensitive detection of this diagnostically and therapeutically important marker. [ABSTRACT FROM AUTHOR]

Published

2021

24. Molecular analysis of pediatric CNS-PNET revealed nosologic heterogeneity and potent diagnostic markers for CNS neuroblastoma with FOXR2-activation.

Author

Korshunov, Andrey, Okonechnikov, Konstantin, Schmitt-Hoffner, Felix, Ryzhova, Marina, Sahm, Felix, Stichel, Damian, Schrimpf, Daniel, Reuss, David E., Sievers, Philipp, Suwala, Abigail Kora, Kumirova, Ella, Zheludkova, Olga, Golanov, Andrey, Jones, David T. W., Pfister, Stefan M., Kool, Marcel, and von Deimling, Andreas

Subjects

CENTRAL nervous system tumors, NEUROECTODERMAL tumors, NEUROBLASTOMA, BRAIN tumors, EPIGENETICS, GENES

Abstract

Primitive neuroectodermal tumors of the central nervous system (CNS-PNETs) are highly malignant neoplasms posing diagnostic challenge due to a lack of defining molecular markers. CNS neuroblastoma with forkhead box R2 (FOXR2) activation (CNS_NBL) emerged as a distinct pediatric brain tumor entity from a pool previously diagnosed as primitive neuroectodermal tumors of the central nervous system (CNS-PNETs). Current standard of identifying CNS_NBL relies on molecular analysis. We set out to establish immunohistochemical markers allowing safely distinguishing CNS_NBL from morphological mimics. To this aim we analyzed a series of 84 brain tumors institutionally diagnosed as CNS-PNET. As expected, epigenetic analysis revealed different methylation groups corresponding to the (1) CNS-NBL (24%), (2) glioblastoma IDH wild-type subclass H3.3 G34 (26%), (3) glioblastoma IDH wild-type subclass MYCN (21%) and (4) ependymoma with RELA_C11orf95 fusion (29%) entities. Transcriptome analysis of this series revealed a set of differentially expressed genes distinguishing CNS_NBL from its mimics. Based on RNA-sequencing data we established SOX10 and ANKRD55 expression as genes discriminating CNS_NBL from other tumors exhibiting CNS-PNET. Immunohistochemical detection of combined expression of SOX10 and ANKRD55 clearly identifies CNS_NBL discriminating them to other hemispheric CNS neoplasms harboring "PNET-like" microscopic appearance. Owing the rarity of CNS_NBL, a confirmation of the elaborated diagnostic IHC algorithm will be necessary in prospective patient series. [ABSTRACT FROM AUTHOR]

Published

2021

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

Author

Sievers, Philipp, Sill, Martin, Blume, Christina, Tauziede-Espariat, Arnault, Schrimpf, Daniel, Stichel, Damian, Reuss, David E., Dogan, Helin, Hartmann, Christian, Mawrin, Christian, Hasselblatt, Martin, Stummer, Walter, Schick, Uta, Hench, Jürgen, Frank, Stephan, Ketter, Ralf, Schweizer, Leonille, Schittenhelm, Jens, Puget, Stéphanie, and Brandner, Sebastian

Subjects

DNA methylation, EPIGENOMICS, CELL analysis, YOUNG adults, MENINGIOMA, CELL populations

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. [ABSTRACT FROM AUTHOR]

Published

2021

26. Sarcoma classification by DNA methylation profiling.

Author

Koelsche, Christian, Schrimpf, Daniel, Stichel, Damian, Sill, Martin, Sahm, Felix, Reuss, David E., Blattner, Mirjam, Worst, Barbara, Heilig, Christoph E., Beck, Katja, Horak, Peter, Kreutzfeldt, Simon, Paff, Elke, Stark, Sebastian, Johann, Pascal, Selt, Florian, Ecker, Jonas, Sturm, Dominik, Pajtler, Kristian W., and Reinhardt, Annekathrin

Subjects

DNA methylation, DNA fingerprinting, SARCOMA, DNA, MACHINE learning, IFOSFAMIDE

Abstract

Sarcomas are malignant soft tissue and bone tumours affecting adults, adolescents and children. They represent a morphologically heterogeneous class of tumours and some entities lack defining histopathological features. Therefore, the diagnosis of sarcomas is burdened with a high inter-observer variability and misclassification rate. Here, we demonstrate classification of soft tissue and bone tumours using a machine learning classifier algorithm based on array-generated DNA methylation data. This sarcoma classifier is trained using a dataset of 1077 methylation profiles from comprehensively pre-characterized cases comprising 62 tumour methylation classes constituting a broad range of soft tissue and bone sarcoma subtypes across the entire age spectrum. The performance is validated in a cohort of 428 sarcomatous tumours, of which 322 cases were classified by the sarcoma classifier. Our results demonstrate the potential of the DNA methylation-based sarcoma classification for research and future diagnostic applications. Sarcomas are morphologically heterogeneous tumours rendering their classification challenging. Here the authors developed a classifier using DNA methylation data from several soft tissue and bone sarcoma subtypes, which has the potential to improve classification for research and clinical purposes. [ABSTRACT FROM AUTHOR]

Published

2021

27. A subset of pediatric-type thalamic gliomas share a distinct DNA methylation profile, H3K27me3 loss and frequent alteration of EGFR.

Author

Sievers, Philipp, Sill, Martin, Schrimpf, Daniel, Stichel, Damian, Reuss, David E, Sturm, Dominik, Hench, Jürgen, Frank, Stephan, Krskova, Lenka, Vicha, Ales, Zapotocky, Michal, Bison, Brigitte, Castel, David, Grill, Jacques, Debily, Marie-Anne, Harter, Patrick N, Snuderl, Matija, Kramm, Christof M, Reifenberger, Guido, and Korshunov, Andrey

Published

2021

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

Author

Suwala, Abigail K., Stichel, Damian, Schrimpf, Daniel, Kloor, Matthias, Wefers, Annika K., Reinhardt, Annekathrin, Maas, Sybren L. N., Kratz, Christian P., Schweizer, Leonille, Hasselblatt, Martin, Snuderl, Matija, Abedalthagafi, Malak Sameer J., Abdullaev, Zied, Monoranu, Camelia M., Bergmann, Markus, Pekrun, Arnulf, Freyschlag, Christian, Aronica, Eleonora, Kramm, Christof M., and Hinz, Felix

Subjects

DNA mismatch repair, ASTROCYTOMAS, PROGNOSIS, YOUNG adults, GLIOMAS, DNA methylation, PROGRESSION-free survival, BREAST cancer prognosis

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. [ABSTRACT FROM AUTHOR]

Published

2021

29. Mosaic trisomy of chromosome 1q in human brain tissue associates with unilateral polymicrogyria, very early-onset focal epilepsy, and severe developmental delay.

Author

Kobow, Katja, Jabari, Samir, Pieper, Tom, Kudernatsch, Manfred, Polster, Tilman, Woermann, Friedrich G., Kalbhenn, Thilo, Hamer, Hajo, Rössler, Karl, Mühlebner, Angelika, Spliet, Wim G. M., Feucht, Martha, Hou, Yanghao, Stichel, Damian, Korshunov, Andrey, Sahm, Felix, Coras, Roland, Blümcke, Ingmar, and von Deimling, Andreas

Subjects

MOSAICISM, PARTIAL epilepsy, HUMAN chromosomes, DEVELOPMENTAL delay, PLANT chromosomes, TEMPORAL lobe epilepsy, EPIGENOMICS, CHROMOSOME duplication

Abstract

Polymicrogyria (PMG) is a developmental cortical malformation characterized by an excess of small and frustrane gyration and abnormal cortical lamination. PMG frequently associates with seizures. The molecular pathomechanisms underlying PMG development are not yet understood. About 40 genes have been associated with PMG, and small copy number variations have also been described in selected patients. We recently provided evidence that epilepsy-associated structural brain lesions can be classified based on genomic DNA methylation patterns. Here, we analyzed 26 PMG patients employing array-based DNA methylation profiling on formalin-fixed paraffin-embedded material. A series of 62 well-characterized non-PMG cortical malformations (focal cortical dysplasia type 2a/b and hemimegalencephaly), temporal lobe epilepsy, and non-epilepsy autopsy controls was used as reference cohort. Unsupervised dimensionality reduction and hierarchical cluster analysis of DNA methylation profiles showed that PMG formed a distinct DNA methylation class. Copy number profiling from DNA methylation data identified a uniform duplication spanning the entire long arm of chromosome 1 in 7 out of 26 PMG patients, which was verified by additional fluorescence in situ hybridization analysis. In respective cases, about 50% of nuclei in the center of the PMG lesion were 1q triploid. No chromosomal imbalance was seen in adjacent, architecturally normal-appearing tissue indicating mosaicism. Clinically, PMG 1q patients presented with a unilateral frontal or hemispheric PMG without hemimegalencephaly, a severe form of intractable epilepsy with seizure onset in the first months of life, and severe developmental delay. Our results show that PMG can be classified among other structural brain lesions according to their DNA methylation profile. One subset of PMG with distinct clinical features exhibits a duplication of chromosomal arm 1q. [ABSTRACT FROM AUTHOR]

Published

2020

30. Molecular characterization of CNS paragangliomas identifies cauda equina paragangliomas as a distinct tumor entity.

Author

Schweizer, Leonille, Thierfelder, Felix, Thomas, Christian, Soschinski, Patrick, Suwala, Abigail, Stichel, Damian, Wefers, Annika K., Wessels, Lars, Misch, Martin, Kim, Hee-yeong, Jödicke, Ruben, Teichmann, Daniel, Kaul, David, Kahn, Johannes, Bockmayr, Michael, Hasselblatt, Martin, Younsi, Alexander, Unterberg, Andreas, Knie, Bettina, and Walter, Jan

Subjects

CAUDA equina, ADRENAL glands, NEUROENDOCRINE tumors, DNA methylation, NUCLEOTIDE sequence, TUMORS

Abstract

Paragangliomas/pheochromocytomas are rare neuroendocrine tumors that arise from the adrenal gland or ganglia at various sites throughout the body. They display a remarkable diversity of driver alterations and are associated with germline mutations in up to 40% of the cases. Comprehensive molecular profiling of abdomino-thoracic paragangliomas revealed four molecularly defined and clinically relevant subtypes. Paragangliomas of the cauda equina region are considered to belong to one of the defined molecular subtypes, but a systematic molecular analysis has not yet been performed. In this study, we analyzed genome-wide DNA methylation profiles of 57 cauda equina paragangliomas and show that these tumors are epigenetically distinct from non-spinal paragangliomas and other tumors. In contrast to paragangliomas of other sites, chromosomal imbalances are widely lacking in cauda equina paragangliomas. Furthermore, RNA and DNA exome sequencing revealed that frequent genetic alterations found in non-spinal paragangliomas—including the prognostically relevant SDH mutations—are absent in cauda equina paragangliomas. Histologically, cauda equina paragangliomas show frequently gangliocytic differentiation and strong immunoreactivity to pan-cytokeratin and cytokeratin 18, which is not common in paragangliomas of other sites. None of our cases had a familial paraganglioma syndrome. Tumors rarely recurred (9%) or presented with multiple lesions within the spinal compartment (7%), but did not metastasize outside the CNS. In summary, we show that cauda equina paragangliomas represent a distinct, sporadic tumor entity defined by a unique clinical and morpho-molecular profile. [ABSTRACT FROM AUTHOR]

Published

2020

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

Author

Banan, Rouzbeh, Stichel, Damian, Bleck, Anja, Hong, Bujung, Lehmann, Ulrich, Suwala, Abigail, Reinhardt, Annekathrin, Schrimpf, Daniel, Buslei, Rolf, Stadelmann, Christine, Ehlert, Karoline, Prinz, Marco, Acker, Till, Schittenhelm, Jens, Kaul, David, Schweizer, Leonille, Capper, David, Harter, Patrick N., Etminan, Nima, and Jones, David T. W.

Subjects

ASTROCYTOMAS, DNA methylation, P16 gene, BRAF genes, GLIOMAS, CEREBELLUM, TUMORS

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. [ABSTRACT FROM AUTHOR]

Published

2020

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

Author

Sievers, Philipp, Hielscher, Thomas, Schrimpf, Daniel, Stichel, Damian, Reuss, David E., Berghoff, Anna S., Neidert, Marian C., Wirsching, Hans-Georg, Mawrin, Christian, Ketter, Ralf, Paulus, Werner, Reifenberger, Guido, Lamszus, Katrin, Westphal, Manfred, Etminan, Nima, Ratliff, Miriam, Herold-Mende, Christel, Pfister, Stefan M., Jones, David T. W., and Weller, Michael

Subjects

P16 gene, NERVOUS system tumors, CENTRAL nervous system tumors, CYCLIN-dependent kinase inhibitor-2A

Published

2020

33. Endometrial stromal sarcomas with BCOR‐rearrangement harbor MDM2 amplifications.

Author

Kommoss, Felix KF, Chang, Kenneth TE, Stichel, Damian, Banito, Ana, Jones, David TW, Heilig, Christoph E, Fröhling, Stefan, Sahm, Felix, Stenzinger, Albrecht, Hartmann, Wolfgang, Mechtersheimer, Gunhild, Sinn, Hans‐Peter, Schmidt, Dietmar, Kommoss, Friedrich, Deimling, Andreas, and Koelsche, Christian

Subjects

SARCOMA, FLUORESCENCE in situ hybridization, UTERINE fibroids, OVARIAN tumors, UTERINE tumors

Abstract

Recently a novel subtype of endometrial stromal sarcoma (ESS) defined by recurrent genomic alterations involving BCOR has been described (HGESS‐BCOR). We identified a case of HGESS‐BCOR with a ZC3H7B‐BCOR gene fusion, which harbored an amplification of the MDM2 locus. This index case prompted us to investigate MDM2 amplification in four additional cases of HGESS‐BCOR. Tumors were analyzed for MDM2 amplification by array‐based profiling of copy number alterations (CNAs) and fluorescence in situ hybridization (FISH), as well as for MDM2 expression by immunohistochemistry (IHC). Additionally, a cohort of other mesenchymal uterine neoplasms, including 17 low‐grade ESS, 6 classical high‐grade ESS with YWHAE‐rearrangement, 16 uterine tumors resembling ovarian sex cord tumors, 7 uterine leiomyomas and 8 uterine leiomyosarcomas, was analyzed for CNAs in MDM2. Copy number profiling identified amplification of the 12q15 region involving the MDM2 locus in all five HGESS‐BCOR. Subsequent validation analyses of three tumors confirmed MDM2 amplification using MDM2 FISH. Accordingly, IHC showed MDM2 overexpression in all analyzed cases. None of the other uterine neoplasms in our series, including tumors that are in the histopathological differential diagnoses of HGESS‐BCOR, showed copy number gains of MDM2. Together, our results indicate that HGESS‐BCOR carries MDM2 amplifications, which has diagnostic implications and could potentially be used for targeted therapies in these clinically aggressive tumors. [ABSTRACT FROM AUTHOR]

Published

2020

34. Transcriptional profiling of medulloblastoma with extensive nodularity (MBEN) reveals two clinically relevant tumor subsets with VSNL1 as potent prognostic marker.

Author

Korshunov, Andrey, Okonechnikov, Konstantin, Sahm, Felix, Ryzhova, Marina, Stichel, Damian, Schrimpf, Daniel, Ghasemi, David R., Pajtler, Kristian W., Antonelli, Manila, Donofrio, Vittoria, Mastronuzzi, Angela, Rossi, Sabrina, Camassei, Francesca Diomedi, Buccoliero, Anna Maria, Haberler, Christine, Slavc, Irene, Dahiya, Sonika, Casalini, Belen, Sievers, Philipp, and Meyer, Jochen

Subjects

GENE expression profiling, RNA sequencing, CENTRAL nervous system, GENE expression, TUMORS

Abstract

Medulloblastoma with extensive nodularity (MBEN) is one of the few central nervous system (CNS) tumor entities occurring in infants which is traditionally associated with good to excellent prognosis. Some MBEN, however, have been reported with an unfavorable clinical course. We performed an integrated DNA/RNA-based molecular analysis of a multi-institutional MBEN cohort (n = 41) to identify molecular events which might be responsible for variability in patients' clinical outcomes. RNA sequencing analysis of this MBEN cohort disclosed two clear transcriptome clusters (TCL) of these CNS tumors: "TCL1 MBEN" and "TCL2 MBEN" which were associated with various gene expression signatures, mutational landscapes and, importantly, prognosis. Thus, the clinically unfavorable "TCL1 MBEN" subset revealed transcriptome signatures composed of cancer-associated signaling pathways and disclosed a high frequency of clinically relevant germline PTCH1/SUFU alterations. In contrast, gene expression profiles of tumors from the clinically favorable "TCL2 MBEN" subgroup were associated with activation of various neurometabolic and neurotransmission signaling pathways, and germline SHH-pathway gene mutations were extremely rare in this transcriptome cluster. "TCL2 MBEN" also revealed strong and ubiquitous expression of VSNL1 (visinin-like protein 1) both at the mRNA and protein level, which was correlated with a favorable clinical course. Thus, combining mutational and epigenetic profiling with transcriptome analysis including VSNL1 immunohistochemistry, MBEN patients could be stratified into clinical risk groups of potential value for subsequent treatment planning. [ABSTRACT FROM AUTHOR]

Published

2020

35. Molecular subgrouping of primary pineal parenchymal tumors reveals distinct subtypes correlated with clinical parameters and genetic alterations.

Author

Pfaff, Elke, Aichmüller, Christian, Sill, Martin, Stichel, Damian, Snuderl, Matija, Karajannis, Matthias A., Schuhmann, Martin U., Schittenhelm, Jens, Hasselblatt, Martin, Thomas, Christian, Korshunov, Andrey, Rhizova, Marina, Wittmann, Andrea, Kaufhold, Anna, Iskar, Murat, Ketteler, Petra, Lohmann, Dietmar, Orr, Brent A., Ellison, David W., and von Hoff, Katja

Subjects

DNA methylation, DNA fingerprinting, EPIGENOMICS, PINEAL gland, TUMORS, DNA analysis, PANEL analysis, MICRORNA

Abstract

Tumors of the pineal region comprise several different entities with distinct clinical and histopathological features. Whereas some entities predominantly affect adults, pineoblastoma (PB) constitutes a highly aggressive malignancy of childhood with a poor outcome. PBs mainly arise sporadically, but may also occur in the context of cancer predisposition syndromes including DICER1 and RB1 germline mutation. With this study, we investigate clinico-pathological subgroups of pineal tumors and further characterize their biological features. We performed genome-wide DNA methylation analysis in 195 tumors of the pineal region and 20 normal pineal gland controls. Copy-number profiles were obtained from DNA methylation data; gene panel sequencing was added for 93 tumors and analysis was further complemented by miRNA sequencing for 22 tumor samples. Unsupervised clustering based on DNA methylation profiling separated known subgroups, like pineocytoma, pineal parenchymal tumor of intermediate differentiation, papillary tumor of the pineal region and PB, and further distinct subtypes within these groups, including three subtypes within the core PB subgroup. The novel molecular subgroup Pin-RB includes cases of trilateral retinoblastoma as well as sporadic pineal tumors with RB1 alterations, and displays similarities with retinoblastoma. Distinct clinical associations discriminate the second novel molecular subgroup PB-MYC from other PB cases. Alterations within the miRNA processing pathway (affecting DROSHA, DGCR8 or DICER1) are found in about two thirds of cases in the three core PB subtypes. Methylation profiling revealed biologically distinct groups of pineal tumors with specific clinical and molecular features. Our findings provide a foundation for further clinical as well as molecular and functional characterization of PB and other pineal tumors, including the role of miRNA processing defects in oncogenesis. [ABSTRACT FROM AUTHOR]

Published

2020

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

Author

Sievers, Philipp, Schrimpf, Daniel, Stichel, Damian, Reuss, David E., Hasselblatt, Martin, Hagel, Christian, Staszewski, Ori, Hench, Jürgen, Frank, Stephan, Brandner, Sebastian, Korshunov, Andrey, Wick, Wolfgang, Pfister, Stefan M., Reifenberger, Guido, von Deimling, Andreas, Sahm, Felix, and Jones, David T. W.

Subjects

ASTROCYTOMAS, FIBROBLAST growth factor receptors, GLIAL fibrillary acidic protein, ANIMAL offspring sex ratio

Abstract

Low-grade glial (LGG) and glioneuronal tumors (LGGNT) of the central nervous system (CNS) are an extremely diverse group of tumors with overlapping morphological features [[6]], making their histological diagnosis sometimes challenging. PA pilocytic astrocytoma WHO grade I, GTA glial tumor with features of anaplasia, LGGNT low-grade glioneuronal tumor The original histological diagnosis for the majority of the tumors ( I n i = 7) was pilocytic astrocytoma World Health Organization (WHO) grade I, with single cases diagnosed as LGG or LGGNT (Fig. [Extracted from the article]

Published

2020

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

Author

Sievers, Philipp, Chiang, Jason, Schrimpf, Daniel, Stichel, Damian, Paramasivam, Nagarajan, Sill, Martin, Gayden, Tenzin, Casalini, Belen, Reuss, David E., Dalton, James, Pajtler, Kristian W., Hänggi, Daniel, Herold-Mende, Christel, Rushing, Elisabeth, Korshunov, Andrey, Mawrin, Christian, Weller, Michael, Schlesner, Matthias, Wick, Wolfgang, and Jabado, Nada

Subjects

FLUORESCENCE in situ hybridization

Abstract

1 a Unsupervised hierarchical clustering of DNA methylation profiles in nine YAP1-fused meningiomas (MNG YAP1) alongside 128 well-characterized CNS neoplasms and control tissue shown in a two-dimensional representation of pairwise sample correlations using the 15,000 most variant probes by t-distributed stochastic neighbor embedding (t-SNE) dimensionality reduction. Histological meningioma subtypes meningiomas and WHO grade are provided in Supplementary Table 2 I MNG i meningioma, I PXA i pleomorphic xanthoastrocytoma, I pHGG i pediatric high grade glioma, I F i female, I M i male Seven tumors harbored a rearrangement of I YAP1-MAML2 i involving exons 1-5 ( I n i = 5) or only in exon 1 ( I n i = 2) of I YAP1 i (NM 001130145) and exon 2-5 of I MAML2 i (NM 032427) I . In line, I YAP1 i fusion positive meningiomas clustered closer to I NF2 i mutant cases than other pediatric meningiomas (Online Resource Supplementary Fig. [Extracted from the article]

Published

2020

38. Isomorphic diffuse glioma is a morphologically and molecularly distinct tumour entity with recurrent gene fusions of MYBL1 or MYB and a benign disease course.

Author

Wefers, Annika K., Stichel, Damian, Schrimpf, Daniel, Coras, Roland, Pages, Mélanie, Tauziède-Espariat, Arnault, Varlet, Pascale, Schwarz, Daniel, Söylemezoglu, Figen, Pohl, Ute, Pimentel, José, Meyer, Jochen, Hewer, Ekkehard, Japp, Anna, Joshi, Abhijit, Reuss, David E., Reinhardt, Annekathrin, Sievers, Philipp, Casalini, M. Belén, and Ebrahimi, Azadeh

Subjects

GENE fusion, GLIOMAS, DISEASE progression, MYB gene, TUMORS, P16 gene, DNA copy number variations

Abstract

The "isomorphic subtype of diffuse astrocytoma" was identified histologically in 2004 as a supratentorial, highly differentiated glioma with low cellularity, low proliferation and focal diffuse brain infiltration. Patients typically had seizures since childhood and all were operated on as adults. To define the position of these lesions among brain tumours, we histologically, molecularly and clinically analysed 26 histologically prototypical isomorphic diffuse gliomas. Immunohistochemically, they were GFAP-positive, MAP2-, OLIG2- and CD34-negative, nuclear ATRX-expression was retained and proliferation was low. All 24 cases sequenced were IDH-wildtype. In cluster analyses of DNA methylation data, isomorphic diffuse gliomas formed a group clearly distinct from other glial/glio-neuronal brain tumours and normal hemispheric tissue, most closely related to paediatric MYB/MYBL1-altered diffuse astrocytomas and angiocentric gliomas. Half of the isomorphic diffuse gliomas had copy number alterations of MYBL1 or MYB (13/25, 52%). Gene fusions of MYBL1 or MYB with various gene partners were identified in 11/22 (50%) and were associated with an increased RNA-expression of the respective MYB-family gene. Integrating copy number alterations and available RNA sequencing data, 20/26 (77%) of isomorphic diffuse gliomas demonstrated MYBL1 (54%) or MYB (23%) alterations. Clinically, 89% of patients were seizure-free after surgery and all had a good outcome. In summary, we here define a distinct benign tumour class belonging to the family of MYB/MYBL1-altered gliomas. Isomorphic diffuse glioma occurs both in children and adults, has a concise morphology, frequent MYBL1 and MYB alterations and a specific DNA methylation profile. As an exclusively histological diagnosis may be very challenging and as paediatric MYB/MYBL1-altered diffuse astrocytomas may have the same gene fusions, we consider DNA methylation profiling very helpful for their identification. [ABSTRACT FROM AUTHOR]

Published

2020

39. DNA methylation-based profiling of uterine neoplasms: a novel tool to improve gynecologic cancer diagnostics.

Author

Kommoss, Felix K. F., Stichel, Damian, Schrimpf, Daniel, Kriegsmann, Mark, Tessier-Cloutier, Basile, Talhouk, Aline, McAlpine, Jessica N., Chang, Kenneth T. E., Sturm, Dominik, Pfister, Stefan M., Romero-Pérez, Laura, Kirchner, Thomas, Grünewald, Thomas G. P., Buslei, Rolf, Sinn, Hans-Peter, Mechtersheimer, Gunhild, Schirmacher, Peter, Schmidt, Dietmar, Lehr, Hans-Anton, and Sahm, Felix

Subjects

GYNECOLOGIC cancer, DNA fingerprinting, CARCINOSARCOMAS, TUMORS, CENTRAL nervous system tumors, UTERINE fibroids

Abstract

Purpose: Uterine neoplasms comprise a broad spectrum of lesions, some of which may pose a diagnostic challenge even to experienced pathologists. Recently, genome-wide DNA methylation-based classification of central nervous system tumors has been shown to increase diagnostic precision in clinical practice when combined with standard histopathology. In this study, we describe DNA methylation patterns of a diverse set of uterine neoplasms and test the applicability of array-based DNA methylation profiling. Methods: A multicenter cohort including prototypical epithelial and mesenchymal uterine neoplasms was collected. Tumors were subject to pathology review and array-based DNA methylation profiling (Illumina Infinium HumanMethylation450 or EPIC [850k] BeadChip). Methylation data were analyzed by unsupervised hierarchical clustering and t-SNE analysis. Results: After sample retrieval and pathology review the study cohort consisted of 49 endometrial carcinomas (EC), 5 carcinosarcomas (MMMT), 8 uterine leiomyomas (ULMO), 7 uterine leiomyosarcomas (ULMS), 15 uterine tumor resembling ovarian sex cord tumors (UTROSCT), 17 low-grade endometrial stromal sarcomas (LGESS) and 9 high-grade endometrial stromal sarcomas (HGESS). Analysis of methylation data identified distinct methylation clusters, which correlated with established diagnostic categories of uterine neoplasms. MMMT clustered together with EC, while ULMO, ULMS and UTROSCT each formed distinct clusters. The LGESS cluster differed from that of HGESS, and within the branch of HGESS, we observed a notable subgrouping of YWHAE- and BCOR-rearranged tumors. Conclusion: Herein, we describe distinct DNA methylation signatures in uterine neoplasms and show that array-based DNA methylation analysis holds promise as an ancillary tool to further characterize uterine neoplasms, especially in cases which are diagnostically challenging by conventional techniques. [ABSTRACT FROM AUTHOR]

Published

2020

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

Author

Stichel, Damian, Schrimpf, Daniel, Casalini, Belén, Meyer, Jochen, Wefers, Annika K., Sievers, Philipp, Korshunov, Andrey, Koelsche, Christian, Reuss, David E., Reinhardt, Annekathrin, Ebrahimi, Azadeh, Fernández-Klett, Francisco, Kessler, Tobias, Sturm, Dominik, Ecker, Jonas, Milde, Till, Herold-Mende, Christel, Witt, Olaf, Pfister, Stefan M., and Wick, Wolfgang

Subjects

GENE fusion, NUCLEOTIDE sequence, NEUROLOGICAL disorders, NUCLEOTIDE sequencing, BRAIN tumors, DNA, PARAFFIN wax, CIRCULATING tumor DNA

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. [ABSTRACT FROM AUTHOR]

Published

2019

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

Author

Sievers, Philipp, Appay, Romain, Schrimpf, Daniel, Stichel, Damian, Reuss, David E., Wefers, Annika K., Reinhardt, Annekathrin, Coras, Roland, Ruf, Viktoria C., Schmid, Simone, de Stricker, Karin, Boldt, Henning B., Kristensen, Bjarne Winther, Petersen, Jeanette Krogh, Ulhøi, Benedicte P., Gardberg, Maria, Aronica, Eleonora, Hasselblatt, Martin, Brück, Wolfgang, and Bielle, Franck

Subjects

DNA fingerprinting, CIRCULATING tumor DNA, MITOGEN-activated protein kinases, TUMOR suppressor genes, DNA methylation, METHYLATION, BRAIN tumors, TUMORS

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. [ABSTRACT FROM AUTHOR]

Published

2019

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

Author

Paramasivam, Nagarajan, Hübschmann, Daniel, Toprak, Umut H, Ishaque, Naveed, Neidert, Marian, Schrimpf, Daniel, Stichel, Damian, Reuss, David, Sievers, Philipp, Reinhardt, Annekathrin, Wefers, Annika K., Jones, David T. W., Gu, Zuguang, Werner, Johannes, Uhrig, Sebastian, Wirsching, Hans-Georg, Schick, Matthias, Bewerunge-Hudler, Melanie, Beck, Katja, and Brehmer, Stephanie

Subjects

HOMEOBOX genes, GENE enhancers, GENETIC regulation, DNA methylation, NUCLEOTIDE sequence, NUCLEOTIDE sequencing

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. [ABSTRACT FROM AUTHOR]

Published

2019

43. Molecular progression of SHH-activated medulloblastomas.

Author

Korshunov, Andrey, Okonechnikov, Konstantin, Sahm, Felix, Ryzhova, Marina, Stichel, Damian, Sievers, Philipp, Meyer, Jochen, Schrimpf, Daniel, Zheludkova, Olga, Golanov, Andrey, Lichter, Peter, Jones, David T. W., Pfister, Stefan M., von Deimling, Andreas, and Kool, Marcel

Subjects

HIERARCHICAL clustering (Cluster analysis)

Published

2019

44. Desmoplastic/nodular medulloblastomas (DNMB) and medulloblastomas with extensive nodularity (MBEN) disclose similar epigenetic signatures but different transcriptional profiles.

Author

Stichel, Damian, Schrimpf, Daniel, Casalini, Belen, Sievers, Philipp, Meyer, Jochen, Sahm, Felix, von Deimling, Andreas, Korshunov, Andrey, Jones, David T. W., Okonechnikov, Konstantin, Kool, Marcel, Pfister, Stefan M., Lichter, Peter, Ryzhova, Marina, Zheludkova, Olga, and Golanov, Andrey

Subjects

DESMOPLASTIC small round cell tumor, MEDULLOBLASTOMA, GENE expression

Abstract

Desmoplastic/nodular medulloblastomas (DNMB) and medulloblastomas with extensive nodularity (MBEN) were outlined in the current WHO classification of tumors of the nervous system as two distinct histological MB variants. However, they are often considered as cognate SHH MB entities, and it is a reason why some clinical MB trials do not separate the patients with DNMB or MBEN histology. In the current study, we performed an integrated DNA/RNA-based molecular analysis of 83 DNMB and 36 MBEN to assess the etiopathogenetic relationship between these SHH MB variants. Methylation profiling revealed "infant" and "children" SHH MB clusters but neither DNMB nor MBEN composed separate epigenetic cohorts, and their profiles were intermixed within the "infant" cluster. In contrast, RNA-based transcriptional profiling disclosed that expression signatures of all MBEN were clustered separately from most of DNMB and a set of differentially expressed genes was identified. MBEN transcriptomes were enriched with genes associated with synaptic transmission, neuronal differentiation and metabolism, whereas DNMB profiling signatures included sets of genes involved in phototransduction and NOTCH signaling pathways. Thus, DNMB and MBEN are distinct tumor entities within the SHH MB family whose biology is determined by different transcriptional programs. Therefore, we recommend a transcriptome analysis as an optimal molecular tool to discriminate between DNMB and MBEN, which may be of benefit for patients' risk stratification in clinical trials. Molecular events identified in DNMB by RNA sequencing could be considered in the future as potent molecular targets for novel therapeutic interventions in treatment-resistant cases. [ABSTRACT FROM AUTHOR]

Published

2019

45. DNA methylation profiling reliably distinguishes pulmonary enteric adenocarcinoma from metastatic colorectal cancer.

Author

Jurmeister, Philipp, Schöler, Anne, Arnold, Alexander, Klauschen, Frederick, Lenze, Dido, Hummel, Michael, Schweizer, Leonille, Bläker, Hendrik, Pfitzner, Berit Maria, Mamlouk, Soulafa, Sers, Christine, Denkert, Carsten, Stichel, Damian, Frost, Nikolaj, Horst, David, von Laffert, Maximilian, and Capper, David

Published

2019

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

Author

Hou, Yanghao, Pinheiro, Jorge, Sahm, Felix, Reuss, David E., Schrimpf, Daniel, Stichel, Damian, Casalini, Belén, Koelsche, Christian, Sievers, Philipp, Wefers, Annika K., Reinhardt, Annekathrin, Ebrahimi, Azadeh, Fernández-Klett, Francisco, Pusch, Stefan, Meier, Jochen, Schweizer, Leonille, Paulus, Werner, Prinz, Marco, Hartmann, Christian, and Plate, Karl H.

Subjects

BRAIN tumors, GLIOMAS, RNA sequencing

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. [ABSTRACT FROM AUTHOR]

Published

2019

47. DNA methylation profiling distinguishes Ewing-like sarcoma with EWSR1–NFATc2 fusion from Ewing sarcoma.

Author

Koelsche, Christian, Kriegsmann, Mark, Kommoss, Felix K. F., Stichel, Damian, Kriegsmann, Katharina, Vokuhl, Christian, Grünewald, Thomas G. P., Romero-Pérez, Laura, Kirchner, Thomas, de Alava, Enrique, Diaz-Martin, Juan, Hartmann, Wolfgang, Baumhoer, Daniel, Antonescu, Cristina R., Szuhai, Karoly, Flucke, Uta, Dirksen, Uta, Pfister, Stefan M., Jones, David T. W., and Mechtersheimer, Gunhild

Subjects

CHONDROSARCOMA, LIPOSARCOMA, DNA methylation, DNA fingerprinting, SARCOMA, CELL tumors, DNA analysis

Abstract

Purpose: Recent studies revealed divergent gene expression patterns in Ewing sarcoma (EwS) with canonical EWSR1–ETS gene fusions and undifferentiated round cell sarcomas (URCS) with EWSR1 rearrangements fused to the non-ETS gene NFATc2. Thus, the question arises whether the latter tumors really belong to EwS. Methods: We collected five cases matching the group of URCS with EWSR1–NFATc2 fusion and performed DNA methylation and copy number profiling. Results were compared to methylation data of 30 EwS with various EWSR1–ETS fusions and one EwS with FUS–ERG fusion, 16 URCS with CIC rearrangement and 10 URCS with BCOR alteration and a total of 81 EWSR1-associated soft tissue sarcomas including 7 angiomatoid fibrous histiocytomas, 7 clear cell sarcomas of the soft tissue, 28 desmoplastic small round cell tumors, 10 extraskeletal myxoid chondrosarcomas and 29 myxoid liposarcomas. Results: Unsupervised hierarchical clustering and t-distributed stochastic neighbor embedding analysis of DNA methylation data revealed a homogeneous methylation cluster for URCS with EWSR1–NFATc2 fusion, which clearly segregated from EwS and the other subtypes. Copy number profiles of EWSR1–NFATc2 cases showed recurrent losses on chromosome 9q and segmental gains on 20q13 and 22q12 involving the EWSR1 and NFATc2 loci, respectively. Conclusion: In summary, URCS with EWSR1–NFATc2 fusion share a distinct DNA methylation signature and carry characteristic copy number alterations, which emphasizes that these sarcomas should be considered separately from EwS. [ABSTRACT FROM AUTHOR]

Published

2019

48. DNA methylation profiling is a method of choice for molecular verification of pediatric WNT-activated medulloblastomas.

Author

Korshunov, Andrey, Sahm, Felix, Zheludkova, Olga, Golanov, Andrey, Stichel, Damian, Schrimpf, Daniel, Ryzhova, Marina, Potapov, Alexander, Habel, Antje, Meyer, Jochen, Lichter, Peter, Jones, David T W, Deimling, Andreas von, Pfister, Stefan M, and Kool, Marcel

Published

2019

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

Author

Sievers, Philipp, Stichel, Damian, Hielscher, Thomas, Schrimpf, Daniel, Reinhardt, Annekathrin, Wefers, Annika K., Reuss, David, Jones, David T. W., Bewerunge-Hudler, Melanie, Hartmann, Christian, Baumgarten, Peter, Wirsching, Hans-Georg, Winther-Kristensen, Bjarne, Brokinkel, Benjamin, Ketter, Ralf, Idoate Gastearena, Miguel Angel, Lamszus, Katrin, Seiz-Rosenhagen, Marcel, Mawrin, Christian, and Harter, Patrick N.

Subjects

MENINGIOMA, DNA methylation, BRAIN tumor genetics

Abstract

The article offers information on the Chordoid meningiomas topics including information on DNA methylation pattern for chordoid meningioma; genetic variation of meningioma; and significant enrichment for deletions of chromosomal arm 2p.

Published

2018

50. 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, Damian, Ebrahimi, Azadeh, Reuss, David, Schrimpf, Daniel, Ono, Takahiro, Shirahata, Mitsuaki, Reifenberger, Guido, Weller, Michael, Hänggi, Daniel, Wick, Wolfgang, Herold-Mende, Christel, Westphal, Manfred, Brandner, Sebastian, Pfister, Stefan M., Capper, David, Sahm, Felix, and von Deimling, Andreas

Subjects

BRAIN tumors, GLIOBLASTOMA multiforme, CELL proliferation

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. [ABSTRACT FROM AUTHOR]

Published

2018