A microenvironment-determined risk continuum refines subtyping in meningioma and reveals determinants of machine learning-based tumor classification

Sybren L N Maas; The German “Aggressive Meningiomas” Consortium (KAM); Yiheng Tang; Eric Stutheit-Zhao; Ramin Rahmanzade; Christina Blume; Thomas Hielscher; Ferdinand Zettl; Salvatore Benfatto; Domenico Calafato; Martin Sill; Jasim Kada Benotmane; Yahaya A Yabo; Felix Behling; Abigail Suwala; Helin Kardo; Michael Ritter; Matthieu Peyre; Roman Sankowski; Konstantin Okonechnikov; Philipp Sievers; Areeba Patel; David Reuss; Mirco J Friedrich; German “Aggressive Meningiomas” Consortium (KAM); Damian Stichel; Daniel Schrimpf; Thierry P P Van den Bosch; Katja Beck; Hans-Georg Wirsching; Gerhard Jungwirth; C Oliver Hanemann; Katrin Lamszus; Nima Etminan; Andreas Unterberg; Christian Mawrin; Marc Remke; Olivier Ayrault; Peter Lichter; Guido Reifenberger; Michael Platten; Tim Kacprowski; Markus List; Josch K Pauling; Jan Baumbach; Till Milde; Rachel Grossmann; Zvi Ram; Miriam Ratliff; Jan-Philipp Mallm; Marian C Neidert; Eelke M Bos; Marco Prinz; Michael Weller; Till Acker; Felix Hartmann; Matthias Preusser; Ghazaleh Tabatabai; Christel C. Herold-Mende; Sandro M. Krieg; David Jones; Stefan M. Pfister; Wolfgang Wick; Michel Kalamarides; Andreas von Deimling; Dieter Henrik Heiland; Volker Hovestadt; Moritz Gerstung; Matthias Schlesner; Felix Sahm

doi:10.1038/s41588-025-02475-w

A microenvironment-determined risk continuum refines subtyping in meningioma and reveals determinants of machine learning-based tumor classification

Sybren L N Maas^*
, The German “Aggressive Meningiomas” Consortium (KAM)
, Yiheng Tang
, Eric Stutheit-Zhao
, Ramin Rahmanzade
, Christina Blume
, Thomas Hielscher
, Ferdinand Zettl
, Salvatore Benfatto
, Domenico Calafato
, Martin Sill
, Jasim Kada Benotmane
, Yahaya A Yabo
, Felix Behling
, Abigail Suwala
, Helin Kardo
, Michael Ritter
, Matthieu Peyre
, Roman Sankowski
, Konstantin Okonechnikov

Philipp Sievers, Areeba Patel, David Reuss, Mirco J Friedrich, German “Aggressive Meningiomas” Consortium (KAM), Damian Stichel, Daniel Schrimpf, Thierry P P Van den Bosch, Katja Beck, Hans-Georg Wirsching, Gerhard Jungwirth, C Oliver Hanemann, Katrin Lamszus, Nima Etminan, Andreas Unterberg, Christian Mawrin, Marc Remke, Olivier Ayrault, Peter Lichter, Guido Reifenberger, Michael Platten, Tim Kacprowski, Markus List, Josch K Pauling, Jan Baumbach, Till Milde, Rachel Grossmann, Zvi Ram, Miriam Ratliff, Jan-Philipp Mallm, Marian C Neidert, Eelke M Bos, Marco Prinz, Michael Weller, Till Acker, Felix Hartmann, Matthias Preusser, Ghazaleh Tabatabai, Christel C. Herold-Mende, Sandro M. Krieg, David Jones, Stefan M. Pfister, Wolfgang Wick, Michel Kalamarides, Andreas von Deimling, Dieter Henrik Heiland, Volker Hovestadt, Moritz Gerstung, Matthias Schlesner, Felix Sahm^*

^*Corresponding author for this work

Leiden University Medical Centre
University Hospital Heidelberg
University of Toronto
German Cancer Research Center
Dana-Farber Cancer Institute
Azienda Ospedaliera G. Salvini (Rho)
Hopp Children’s Cancer Center Heidelberg (KiTZ)
Translational Neurosurgery
University Hospital Augsburg
Groupe Hospitalier Pitié-Salpêtrière
University of Freiburg
Core Center Heidelberg
University Hospital and University of Zürich
University of Plymouth
University Medical Center Hamburg-Eppendorf
Heidelberg University
University Hospital Magdeburg
Saarland University
PSL Research University
Heinrich Heine University
Technical University of Munich
Department of Neurosurgery
Tel Aviv University
Single-cell Open Lab
European Organization for Research and Treatment of Cancer (EORTC)
University Hospital Zürich
Otto von Guericke University Magdeburg
University of Tübingen
Université libre de Bruxelles
Mayo Clinic Rochester, MN
Erasmus MC Cancer Institute
Sorbonne Université
University of Zurich
Justus Liebig University Giessen
Klinikum Stuttgart
The Helmholtz Association
Medical University of Vienna
European Organisation for Research and Treatment of Cancer Data Center
Augsburg University
University Hospital Tübingen
University of Leeds, School of Medicine
Eberhard Karls University of Tübingen
Ruprecht Karl University of Heidelberg
Klinikum rechts der Isar der Technischen Universität München
Newcastle University
National Center for Tumor Diseases Network
The Hospital for Sick Children
Johns Hopkins University
Erasmus University Rotterdam
National Center for Radiation Research in Oncology (NCRO)
German Consortium for Translational Cancer Research (DKTK)
University of Erlangen Nuremberg
Boston Children's Hospital
Broad Institute of MIT and Harvard
Harvard University
European Molecular Biology Laboratory

Research output: Contribution to journal › Article › Academic › peer-review

1 Citation (Scopus)

13 Downloads (Pure)

Abstract

Classification of tumors in neuro-oncology today relies on molecular patterns (mostly DNA methylation) and their machine learning-supported interpretation. Understanding the process of algorithmic interpretation is essential for safe application in clinical routine. This is paradigmatically true for the most common primary intracranial tumor in adults, meningioma. Here, by applying multiomic profiling and multiple lines of orthogonal computational evaluation in multiple independent datasets, we found that not only tumor cell characteristics but also incremental changes in the tumor microenvironment (TME) have impact on epigenetic meningioma classification and clinical outcome. Besides revealing the decisive role of non-neoplastic cells in the CNS methylation classifier, this challenges the model of distinct meningioma subgroups toward a TME-determined risk continuum. This refines current controversies in molecular meningioma subtyping. In addition, we apply these learnings to devise and validate a simple diagnostic approach for increased clinical prediction accuracy based on immunohistochemistry, which is also applicable in resource-limited settings.

Original language	English
Pages (from-to)	341-354
Number of pages	14
Journal	Nature Genetics
Volume	58
Issue number	2
DOIs	https://doi.org/10.1038/s41588-025-02475-w
Publication status	Published - 9 Feb 2026

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Publisher Copyright:
© The Author(s) 2026.

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A microenvironment-determined risk continuum refines subtyping in meningioma and reveals determinants of machine learning-based tumor classificationFinal published version, 22.3 MBLicence: CC BY

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Maas, S. L. N., The German “Aggressive Meningiomas” Consortium (KAM), Tang, Y., Stutheit-Zhao, E., Rahmanzade, R., Blume, C., Hielscher, T., Zettl, F., Benfatto, S., Calafato, D., Sill, M., Benotmane, J. K., Yabo, Y. A., Behling, F., Suwala, A., Kardo, H., Ritter, M., Peyre, M., Sankowski, R., ... Sahm, F. (2026). A microenvironment-determined risk continuum refines subtyping in meningioma and reveals determinants of machine learning-based tumor classification. Nature Genetics, 58(2), 341-354. https://doi.org/10.1038/s41588-025-02475-w

@article{1c63fc8026d54ff4b890ebecab70e84d,

title = "A microenvironment-determined risk continuum refines subtyping in meningioma and reveals determinants of machine learning-based tumor classification",

abstract = "Classification of tumors in neuro-oncology today relies on molecular patterns (mostly DNA methylation) and their machine learning-supported interpretation. Understanding the process of algorithmic interpretation is essential for safe application in clinical routine. This is paradigmatically true for the most common primary intracranial tumor in adults, meningioma. Here, by applying multiomic profiling and multiple lines of orthogonal computational evaluation in multiple independent datasets, we found that not only tumor cell characteristics but also incremental changes in the tumor microenvironment (TME) have impact on epigenetic meningioma classification and clinical outcome. Besides revealing the decisive role of non-neoplastic cells in the CNS methylation classifier, this challenges the model of distinct meningioma subgroups toward a TME-determined risk continuum. This refines current controversies in molecular meningioma subtyping. In addition, we apply these learnings to devise and validate a simple diagnostic approach for increased clinical prediction accuracy based on immunohistochemistry, which is also applicable in resource-limited settings.",

author = "Maas, \{Sybren L N\} and \{The German “Aggressive Meningiomas” Consortium (KAM)\} and Yiheng Tang and Eric Stutheit-Zhao and Ramin Rahmanzade and Christina Blume and Thomas Hielscher and Ferdinand Zettl and Salvatore Benfatto and Domenico Calafato and Martin Sill and Benotmane, \{Jasim Kada\} and Yabo, \{Yahaya A\} and Felix Behling and Abigail Suwala and Helin Kardo and Michael Ritter and Matthieu Peyre and Roman Sankowski and Konstantin Okonechnikov and Philipp Sievers and Areeba Patel and David Reuss and Friedrich, \{Mirco J\} and \{German “Aggressive Meningiomas” Consortium (KAM)\} and Damian Stichel and Daniel Schrimpf and \{Van den Bosch\}, \{Thierry P P\} and Katja Beck and Hans-Georg Wirsching and Gerhard Jungwirth and Hanemann, \{C Oliver\} and Katrin Lamszus and Nima Etminan and Andreas Unterberg and Christian Mawrin and Marc Remke and Olivier Ayrault and Peter Lichter and Guido Reifenberger and Michael Platten and Tim Kacprowski and Markus List and Pauling, \{Josch K\} and Jan Baumbach and Till Milde and Rachel Grossmann and Zvi Ram and Miriam Ratliff and Jan-Philipp Mallm and Neidert, \{Marian C\} and Bos, \{Eelke M\} and Marco Prinz and Michael Weller and Till Acker and Felix Hartmann and Matthias Preusser and Ghazaleh Tabatabai and Herold-Mende, \{Christel C.\} and Krieg, \{Sandro M.\} and David Jones and Pfister, \{Stefan M.\} and Wolfgang Wick and Michel Kalamarides and \{von Deimling\}, Andreas and Heiland, \{Dieter Henrik\} and Volker Hovestadt and Moritz Gerstung and Matthias Schlesner and Felix Sahm",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2026.",

year = "2026",

month = feb,

day = "9",

doi = "10.1038/s41588-025-02475-w",

language = "English",

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Maas, SLN, The German “Aggressive Meningiomas” Consortium (KAM), Tang, Y, Stutheit-Zhao, E, Rahmanzade, R, Blume, C, Hielscher, T, Zettl, F, Benfatto, S, Calafato, D, Sill, M, Benotmane, JK, Yabo, YA, Behling, F, Suwala, A, Kardo, H, Ritter, M, Peyre, M, Sankowski, R, Okonechnikov, K, Sievers, P, Patel, A, Reuss, D, Friedrich, MJ, German “Aggressive Meningiomas” Consortium (KAM), Stichel, D, Schrimpf, D, Van den Bosch, TPP, Beck, K, Wirsching, H-G, Jungwirth, G, Hanemann, CO, Lamszus, K, Etminan, N, Unterberg, A, Mawrin, C, Remke, M, Ayrault, O, Lichter, P, Reifenberger, G, Platten, M, Kacprowski, T, List, M, Pauling, JK, Baumbach, J, Milde, T, Grossmann, R, Ram, Z, Ratliff, M, Mallm, J-P, Neidert, MC, Bos, EM, Prinz, M, Weller, M, Acker, T, Hartmann, F, Preusser, M, Tabatabai, G, Herold-Mende, CC, Krieg, SM, Jones, D, Pfister, SM, Wick, W, Kalamarides, M, von Deimling, A, Heiland, DH, Hovestadt, V, Gerstung, M, Schlesner, M & Sahm, F 2026, 'A microenvironment-determined risk continuum refines subtyping in meningioma and reveals determinants of machine learning-based tumor classification', Nature Genetics, vol. 58, no. 2, pp. 341-354. https://doi.org/10.1038/s41588-025-02475-w

A microenvironment-determined risk continuum refines subtyping in meningioma and reveals determinants of machine learning-based tumor classification. / Maas, Sybren L N; The German “Aggressive Meningiomas” Consortium (KAM); Tang, Yiheng et al.
In: Nature Genetics, Vol. 58, No. 2, 09.02.2026, p. 341-354.

Research output: Contribution to journal › Article › Academic › peer-review

TY - JOUR

T1 - A microenvironment-determined risk continuum refines subtyping in meningioma and reveals determinants of machine learning-based tumor classification

AU - Maas, Sybren L N

AU - The German “Aggressive Meningiomas” Consortium (KAM)

AU - Tang, Yiheng

AU - Stutheit-Zhao, Eric

AU - Rahmanzade, Ramin

AU - Blume, Christina

AU - Hielscher, Thomas

AU - Zettl, Ferdinand

AU - Benfatto, Salvatore

AU - Calafato, Domenico

AU - Sill, Martin

AU - Benotmane, Jasim Kada

AU - Yabo, Yahaya A

AU - Behling, Felix

AU - Suwala, Abigail

AU - Kardo, Helin

AU - Ritter, Michael

AU - Peyre, Matthieu

AU - Sankowski, Roman

AU - Okonechnikov, Konstantin

AU - Sievers, Philipp

AU - Patel, Areeba

AU - Reuss, David

AU - Friedrich, Mirco J

AU - German “Aggressive Meningiomas” Consortium (KAM)

AU - Stichel, Damian

AU - Schrimpf, Daniel

AU - Van den Bosch, Thierry P P

AU - Beck, Katja

AU - Wirsching, Hans-Georg

AU - Jungwirth, Gerhard

AU - Hanemann, C Oliver

AU - Lamszus, Katrin

AU - Etminan, Nima

AU - Unterberg, Andreas

AU - Mawrin, Christian

AU - Remke, Marc

AU - Ayrault, Olivier

AU - Lichter, Peter

AU - Reifenberger, Guido

AU - Platten, Michael

AU - Kacprowski, Tim

AU - List, Markus

AU - Pauling, Josch K

AU - Baumbach, Jan

AU - Milde, Till

AU - Grossmann, Rachel

AU - Ram, Zvi

AU - Ratliff, Miriam

AU - Mallm, Jan-Philipp

AU - Neidert, Marian C

AU - Bos, Eelke M

AU - Prinz, Marco

AU - Weller, Michael

AU - Acker, Till

AU - Hartmann, Felix

AU - Preusser, Matthias

AU - Tabatabai, Ghazaleh

AU - Herold-Mende, Christel C.

AU - Krieg, Sandro M.

AU - Jones, David

AU - Pfister, Stefan M.

AU - Wick, Wolfgang

AU - Kalamarides, Michel

AU - von Deimling, Andreas

AU - Heiland, Dieter Henrik

AU - Hovestadt, Volker

AU - Gerstung, Moritz

AU - Schlesner, Matthias

AU - Sahm, Felix

PY - 2026/2/9

Y1 - 2026/2/9

N2 - Classification of tumors in neuro-oncology today relies on molecular patterns (mostly DNA methylation) and their machine learning-supported interpretation. Understanding the process of algorithmic interpretation is essential for safe application in clinical routine. This is paradigmatically true for the most common primary intracranial tumor in adults, meningioma. Here, by applying multiomic profiling and multiple lines of orthogonal computational evaluation in multiple independent datasets, we found that not only tumor cell characteristics but also incremental changes in the tumor microenvironment (TME) have impact on epigenetic meningioma classification and clinical outcome. Besides revealing the decisive role of non-neoplastic cells in the CNS methylation classifier, this challenges the model of distinct meningioma subgroups toward a TME-determined risk continuum. This refines current controversies in molecular meningioma subtyping. In addition, we apply these learnings to devise and validate a simple diagnostic approach for increased clinical prediction accuracy based on immunohistochemistry, which is also applicable in resource-limited settings.

AB - Classification of tumors in neuro-oncology today relies on molecular patterns (mostly DNA methylation) and their machine learning-supported interpretation. Understanding the process of algorithmic interpretation is essential for safe application in clinical routine. This is paradigmatically true for the most common primary intracranial tumor in adults, meningioma. Here, by applying multiomic profiling and multiple lines of orthogonal computational evaluation in multiple independent datasets, we found that not only tumor cell characteristics but also incremental changes in the tumor microenvironment (TME) have impact on epigenetic meningioma classification and clinical outcome. Besides revealing the decisive role of non-neoplastic cells in the CNS methylation classifier, this challenges the model of distinct meningioma subgroups toward a TME-determined risk continuum. This refines current controversies in molecular meningioma subtyping. In addition, we apply these learnings to devise and validate a simple diagnostic approach for increased clinical prediction accuracy based on immunohistochemistry, which is also applicable in resource-limited settings.

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JO - Nature Genetics

JF - Nature Genetics

IS - 2

ER -

A microenvironment-determined risk continuum refines subtyping in meningioma and reveals determinants of machine learning-based tumor classification

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