Molecular and Clinical Stratification of Astroblastomas: Three distinct Fusion-Defined Groups Informing Risk-Adapted Treatment Strategies

Aniello Federico; Felix Schmitt-Hoffner; Adriana Fonseca; Neal Geisemeyer; Katharina Bruckner; Monika Mauermann; Martin Sill; Damian Stichel; Dominik Sturm; Ulrich Schüller; Arnault Tauziede-Espariat; Pascale Varlet; David Capper; Zied Abdullaev; Daniel Schrimpf; Florian Selt; Lane Williamson; Andrew M Donson; Manila Antonelli; Evelina Miele; Matija Snuderl; Sebastian Brandner; Maria Łastowska; Jasper Van Der Lugt; Jens Bunt; Christof Kramm; Alexandra Kolenova; Aditya Raghunathan; Yelena Wilson; Lauren Weintraub; Jordan R Hansford; Sabine Spiegl-Kreinecker; Barbara Aistleitner; Lorena Baroni; Michal Zapotocky; Vijay Ramaswamy; Andrey Korshunov; Barbara Jones; Mimi Kjaersgaard; Mariëtte E Kranendonk; Christine Haberler; Roger J Packer; Natalie Jäger; Andreas Von Deimling; Felix Sahm; Jan Koster; Kenneth Aldape; Stefan M Pfister; Katja Von Hoff; Johannes Gojo; Marcel Kool

doi:10.1093/neuonc/noaf283

Molecular and Clinical Stratification of Astroblastomas: Three distinct Fusion-Defined Groups Informing Risk-Adapted Treatment Strategies

Aniello Federico, Felix Schmitt-Hoffner, Adriana Fonseca, Neal Geisemeyer, Katharina Bruckner, Monika Mauermann, Martin Sill, Damian Stichel, Dominik Sturm, Ulrich Schüller, Arnault Tauziede-Espariat, Pascale Varlet, David Capper, Zied Abdullaev, Daniel Schrimpf, Florian Selt, Lane Williamson, Andrew M Donson, Manila Antonelli, Evelina MieleMatija Snuderl, Sebastian Brandner, Maria Łastowska, Jasper Van Der Lugt, Jens Bunt, Christof Kramm, Alexandra Kolenova, Aditya Raghunathan, Yelena Wilson, Lauren Weintraub, Jordan R Hansford, Sabine Spiegl-Kreinecker, Barbara Aistleitner, Lorena Baroni, Michal Zapotocky, Vijay Ramaswamy, Andrey Korshunov, Barbara Jones, Mimi Kjaersgaard, Mariëtte E Kranendonk, Christine Haberler, Roger J Packer, Natalie Jäger, Andreas Von Deimling, Felix Sahm, Jan Koster, Kenneth Aldape, Stefan M Pfister, Katja Von Hoff, Johannes Gojo, Marcel Kool

Afdeling for Børn og Unge JMC

Abstract

BACKGROUND: Astroblastomas are rare brain tumors predominantly affecting children and young adults, for which molecular subtypes and clinical management remain undefined.

METHODS: We analyzed tumor samples, molecular profiles, and clinical data from 200 patients, classified as "Astroblastoma, MN1-altered" under WHO criteria, using DNA methylation profiling, DNA/RNA profiling/sequencing, and survival analyses.

RESULTS: DNA methylation analyses identified three groups: Group A (n = 143, characterized by MN1::BEND2 fusions, predominantly supratentorial location, with striking female predominance and favorable survival); Group B (n = 37, epigenetically and transcriptionally closely related to Group A, but characterized by EWSR1::BEND2 fusions, with spinal and infratentorial locations and poor prognosis); and Group C (n = 20, epigenetically and transcriptionally distinct, characterized by MN1::CXXC5 fusions, exclusively supratentorially located, with favorable survival). Progression-free and overall survival were significantly shorter in Group B (5-year PFS 14%; 10-year OS 54%) compared to A (5-year PFS 47%; 10-year OS 89%) and C (5-year PFS 75%; 10-year OS 89%). Radiotherapy improved PFS in Group B (hazard ratio 0.25), while no clear benefit was identified for Group A and C.

CONCLUSIONS: Astroblastoma, MN1-altered, comprises three molecularly and clinically distinct groups, characterized by different fusion genes, including those without MN1. These new insights, including identification of potential predictive biomarkers like 14q/16q loss, provide a framework for development of risk-stratified therapeutic approaches. Importantly, we identified a molecularly defined high-risk group that benefits from radiation therapy. Our findings redefine Astroblastoma as a molecularly diverse tumor type, propose a refined classification, support the development of risk-adapted therapeutic strategies and provide a rational standard of care.

Originalsprog	Engelsk
Tidsskrift	Neuro-Oncology
ISSN	1522-8517
DOI	https://doi.org/10.1093/neuonc/noaf283
Status	E-pub ahead of print - 22 dec. 2025

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10.1093/neuonc/noaf283Licens: CC BY-NC

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Federico, A., Schmitt-Hoffner, F., Fonseca, A., Geisemeyer, N., Bruckner, K., Mauermann, M., Sill, M., Stichel, D., Sturm, D., Schüller, U., Tauziede-Espariat, A., Varlet, P., Capper, D., Abdullaev, Z., Schrimpf, D., Selt, F., Williamson, L., Donson, A. M., Antonelli, M., ... Kool, M. (2025). Molecular and Clinical Stratification of Astroblastomas: Three distinct Fusion-Defined Groups Informing Risk-Adapted Treatment Strategies. Neuro-Oncology. Advance online publication. https://doi.org/10.1093/neuonc/noaf283

Federico, A, Schmitt-Hoffner, F, Fonseca, A, Geisemeyer, N, Bruckner, K, Mauermann, M, Sill, M, Stichel, D, Sturm, D, Schüller, U, Tauziede-Espariat, A, Varlet, P, Capper, D, Abdullaev, Z, Schrimpf, D, Selt, F, Williamson, L, Donson, AM, Antonelli, M, Miele, E, Snuderl, M, Brandner, S, Łastowska, M, Van Der Lugt, J, Bunt, J, Kramm, C, Kolenova, A, Raghunathan, A, Wilson, Y, Weintraub, L, Hansford, JR, Spiegl-Kreinecker, S, Aistleitner, B, Baroni, L, Zapotocky, M, Ramaswamy, V, Korshunov, A, Jones, B, Kjaersgaard, M, Kranendonk, ME, Haberler, C, Packer, RJ, Jäger, N, Deimling, AV, Sahm, F, Koster, J, Aldape, K, Pfister, SM, Hoff, KV, Gojo, J & Kool, M 2025, 'Molecular and Clinical Stratification of Astroblastomas: Three distinct Fusion-Defined Groups Informing Risk-Adapted Treatment Strategies', Neuro-Oncology. https://doi.org/10.1093/neuonc/noaf283

@article{8436eadd24fa42f593fcb3c5a08bfac0,

title = "Molecular and Clinical Stratification of Astroblastomas: Three distinct Fusion-Defined Groups Informing Risk-Adapted Treatment Strategies",

abstract = "BACKGROUND: Astroblastomas are rare brain tumors predominantly affecting children and young adults, for which molecular subtypes and clinical management remain undefined.METHODS: We analyzed tumor samples, molecular profiles, and clinical data from 200 patients, classified as {"}Astroblastoma, MN1-altered{"} under WHO criteria, using DNA methylation profiling, DNA/RNA profiling/sequencing, and survival analyses.RESULTS: DNA methylation analyses identified three groups: Group A (n = 143, characterized by MN1::BEND2 fusions, predominantly supratentorial location, with striking female predominance and favorable survival); Group B (n = 37, epigenetically and transcriptionally closely related to Group A, but characterized by EWSR1::BEND2 fusions, with spinal and infratentorial locations and poor prognosis); and Group C (n = 20, epigenetically and transcriptionally distinct, characterized by MN1::CXXC5 fusions, exclusively supratentorially located, with favorable survival). Progression-free and overall survival were significantly shorter in Group B (5-year PFS 14%; 10-year OS 54%) compared to A (5-year PFS 47%; 10-year OS 89%) and C (5-year PFS 75%; 10-year OS 89%). Radiotherapy improved PFS in Group B (hazard ratio 0.25), while no clear benefit was identified for Group A and C.CONCLUSIONS: Astroblastoma, MN1-altered, comprises three molecularly and clinically distinct groups, characterized by different fusion genes, including those without MN1. These new insights, including identification of potential predictive biomarkers like 14q/16q loss, provide a framework for development of risk-stratified therapeutic approaches. Importantly, we identified a molecularly defined high-risk group that benefits from radiation therapy. Our findings redefine Astroblastoma as a molecularly diverse tumor type, propose a refined classification, support the development of risk-adapted therapeutic strategies and provide a rational standard of care.",

author = "Aniello Federico and Felix Schmitt-Hoffner and Adriana Fonseca and Neal Geisemeyer and Katharina Bruckner and Monika Mauermann and Martin Sill and Damian Stichel and Dominik Sturm and Ulrich Sch{\"u}ller and Arnault Tauziede-Espariat and Pascale Varlet and David Capper and Zied Abdullaev and Daniel Schrimpf and Florian Selt and Lane Williamson and Donson, {Andrew M} and Manila Antonelli and Evelina Miele and Matija Snuderl and Sebastian Brandner and Maria {\L}astowska and {Van Der Lugt}, Jasper and Jens Bunt and Christof Kramm and Alexandra Kolenova and Aditya Raghunathan and Yelena Wilson and Lauren Weintraub and Hansford, {Jordan R} and Sabine Spiegl-Kreinecker and Barbara Aistleitner and Lorena Baroni and Michal Zapotocky and Vijay Ramaswamy and Andrey Korshunov and Barbara Jones and Mimi Kjaersgaard and Kranendonk, {Mari{\"e}tte E} and Christine Haberler and Packer, {Roger J} and Natalie J{\"a}ger and Deimling, {Andreas Von} and Felix Sahm and Jan Koster and Kenneth Aldape and Pfister, {Stefan M} and Hoff, {Katja Von} and Johannes Gojo and Marcel Kool",

note = "{\textcopyright} The Author(s) 2025. Published by Oxford University Press on behalf of the Society for Neuro-Oncology.",

year = "2025",

month = dec,

day = "22",

doi = "10.1093/neuonc/noaf283",

language = "English",

journal = "Neuro-Oncology",

issn = "1522-8517",

publisher = "Oxford University Press",

}

TY - JOUR

T1 - Molecular and Clinical Stratification of Astroblastomas

T2 - Three distinct Fusion-Defined Groups Informing Risk-Adapted Treatment Strategies

AU - Federico, Aniello

AU - Schmitt-Hoffner, Felix

AU - Fonseca, Adriana

AU - Geisemeyer, Neal

AU - Bruckner, Katharina

AU - Mauermann, Monika

AU - Sill, Martin

AU - Stichel, Damian

AU - Sturm, Dominik

AU - Schüller, Ulrich

AU - Tauziede-Espariat, Arnault

AU - Varlet, Pascale

AU - Capper, David

AU - Abdullaev, Zied

AU - Schrimpf, Daniel

AU - Selt, Florian

AU - Williamson, Lane

AU - Donson, Andrew M

AU - Antonelli, Manila

AU - Miele, Evelina

AU - Snuderl, Matija

AU - Brandner, Sebastian

AU - Łastowska, Maria

AU - Van Der Lugt, Jasper

AU - Bunt, Jens

AU - Kramm, Christof

AU - Kolenova, Alexandra

AU - Raghunathan, Aditya

AU - Wilson, Yelena

AU - Weintraub, Lauren

AU - Hansford, Jordan R

AU - Spiegl-Kreinecker, Sabine

AU - Aistleitner, Barbara

AU - Baroni, Lorena

AU - Zapotocky, Michal

AU - Ramaswamy, Vijay

AU - Korshunov, Andrey

AU - Jones, Barbara

AU - Kjaersgaard, Mimi

AU - Kranendonk, Mariëtte E

AU - Haberler, Christine

AU - Packer, Roger J

AU - Jäger, Natalie

AU - Deimling, Andreas Von

AU - Sahm, Felix

AU - Koster, Jan

AU - Aldape, Kenneth

AU - Pfister, Stefan M

AU - Hoff, Katja Von

AU - Gojo, Johannes

AU - Kool, Marcel

PY - 2025/12/22

Y1 - 2025/12/22

N2 - BACKGROUND: Astroblastomas are rare brain tumors predominantly affecting children and young adults, for which molecular subtypes and clinical management remain undefined.METHODS: We analyzed tumor samples, molecular profiles, and clinical data from 200 patients, classified as "Astroblastoma, MN1-altered" under WHO criteria, using DNA methylation profiling, DNA/RNA profiling/sequencing, and survival analyses.RESULTS: DNA methylation analyses identified three groups: Group A (n = 143, characterized by MN1::BEND2 fusions, predominantly supratentorial location, with striking female predominance and favorable survival); Group B (n = 37, epigenetically and transcriptionally closely related to Group A, but characterized by EWSR1::BEND2 fusions, with spinal and infratentorial locations and poor prognosis); and Group C (n = 20, epigenetically and transcriptionally distinct, characterized by MN1::CXXC5 fusions, exclusively supratentorially located, with favorable survival). Progression-free and overall survival were significantly shorter in Group B (5-year PFS 14%; 10-year OS 54%) compared to A (5-year PFS 47%; 10-year OS 89%) and C (5-year PFS 75%; 10-year OS 89%). Radiotherapy improved PFS in Group B (hazard ratio 0.25), while no clear benefit was identified for Group A and C.CONCLUSIONS: Astroblastoma, MN1-altered, comprises three molecularly and clinically distinct groups, characterized by different fusion genes, including those without MN1. These new insights, including identification of potential predictive biomarkers like 14q/16q loss, provide a framework for development of risk-stratified therapeutic approaches. Importantly, we identified a molecularly defined high-risk group that benefits from radiation therapy. Our findings redefine Astroblastoma as a molecularly diverse tumor type, propose a refined classification, support the development of risk-adapted therapeutic strategies and provide a rational standard of care.

AB - BACKGROUND: Astroblastomas are rare brain tumors predominantly affecting children and young adults, for which molecular subtypes and clinical management remain undefined.METHODS: We analyzed tumor samples, molecular profiles, and clinical data from 200 patients, classified as "Astroblastoma, MN1-altered" under WHO criteria, using DNA methylation profiling, DNA/RNA profiling/sequencing, and survival analyses.RESULTS: DNA methylation analyses identified three groups: Group A (n = 143, characterized by MN1::BEND2 fusions, predominantly supratentorial location, with striking female predominance and favorable survival); Group B (n = 37, epigenetically and transcriptionally closely related to Group A, but characterized by EWSR1::BEND2 fusions, with spinal and infratentorial locations and poor prognosis); and Group C (n = 20, epigenetically and transcriptionally distinct, characterized by MN1::CXXC5 fusions, exclusively supratentorially located, with favorable survival). Progression-free and overall survival were significantly shorter in Group B (5-year PFS 14%; 10-year OS 54%) compared to A (5-year PFS 47%; 10-year OS 89%) and C (5-year PFS 75%; 10-year OS 89%). Radiotherapy improved PFS in Group B (hazard ratio 0.25), while no clear benefit was identified for Group A and C.CONCLUSIONS: Astroblastoma, MN1-altered, comprises three molecularly and clinically distinct groups, characterized by different fusion genes, including those without MN1. These new insights, including identification of potential predictive biomarkers like 14q/16q loss, provide a framework for development of risk-stratified therapeutic approaches. Importantly, we identified a molecularly defined high-risk group that benefits from radiation therapy. Our findings redefine Astroblastoma as a molecularly diverse tumor type, propose a refined classification, support the development of risk-adapted therapeutic strategies and provide a rational standard of care.

U2 - 10.1093/neuonc/noaf283

DO - 10.1093/neuonc/noaf283

M3 - Journal article

C2 - 41429568

SN - 1522-8517

JO - Neuro-Oncology

JF - Neuro-Oncology

ER -

Molecular and Clinical Stratification of Astroblastomas: Three distinct Fusion-Defined Groups Informing Risk-Adapted Treatment Strategies

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