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

Michaela-Kristina Keck; Martin Sill; Andrea Wittmann; Piyush Joshi; Damian Stichel; Pengbo Beck; Konstantin Okonechnikow; Philipp Sievers; Annika K. Wefers; Federico Roncaroli; Shivaram Avula; Martin G. McCabe; James T. Hayden; Pieter Wesseling; Ingrid Øra; Monica Nistér; Mariëtte E. G. Kranendonk; Bastiaan B. J. Tops; Michal Zapotocky; Josef Zamecnik; Alexandre Vasiljevic; Tanguy Fenouil; David Meyronet; Katja von Hoff; Ulrich Schüller; Hugues Loiseau; Dominique Figarella-Branger; Christof M. Kramm; Dominik Sturm; David Scheie; Tuomas Rauramaa; Jouni Pesola; Johannes Gojo; Christine Haberler; Sebastian Brandner; Tom Jacques; Alexandra Sexton Oates; Richard Saffery; Ewa Koscielniak; Suzanne J. Baker; Stephen Yip; Matija Snuderl; Nasir Ud Din; David Samuel; Kathrin Schramm; Mirjam Blattner-Johnson; Florian Selt; Jonas Ecker; Till Milde; Andreas von Deimling; Andrey Korshunov; Arie Perry; Stefan M. Pfister; Felix Sahm; David A. Solomon; David T. W. Jones

doi:https://doi.org/10.1007/s00401-022-02516-2

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

Michaela-Kristina Keck, Martin Sill, Andrea Wittmann, Piyush Joshi, Damian Stichel, Pengbo Beck, Konstantin Okonechnikow, Philipp Sievers, Annika K. Wefers, Federico Roncaroli, Shivaram Avula, Martin G. McCabe, James T. Hayden, Pieter Wesseling, Ingrid Øra, Monica Nistér, Mariëtte E. G. Kranendonk, Bastiaan B. J. Tops, Michal Zapotocky, Josef ZamecnikAlexandre Vasiljevic, Tanguy Fenouil, David Meyronet, Katja von Hoff, Ulrich Schüller, Hugues Loiseau, Dominique Figarella-Branger, Christof M. Kramm, Dominik Sturm, David Scheie, Tuomas Rauramaa, Jouni Pesola, Johannes Gojo, Christine Haberler, Sebastian Brandner, Tom Jacques, Alexandra Sexton Oates, Richard Saffery, Ewa Koscielniak, Suzanne J. Baker, Stephen Yip, Matija Snuderl, Nasir Ud Din, David Samuel, Kathrin Schramm, Mirjam Blattner-Johnson, Florian Selt, Jonas Ecker, Till Milde, Andreas von Deimling, Andrey Korshunov, Arie Perry, Stefan M. Pfister, Felix Sahm, David A. Solomon, David T. W. Jones

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

6 Citations (Scopus)

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.

Original language	English
Pages (from-to)	49-69
Number of pages	21
Journal	Acta Neuropathologica
Volume	145
Issue number	1
Early online date	2022
DOIs	https://doi.org/10.1007/s00401-022-02516-2
Publication status	Published - Jan 2023

Keywords

Molecular neuro-oncology
PLAGL1
PLAGL2
Pediatric cancer

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https://doi.org/10.1007/s00401-022-02516-2

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Keck, M.-K., Sill, M., Wittmann, A., Joshi, P., Stichel, D., Beck, P., Okonechnikow, K., Sievers, P., Wefers, A. K., Roncaroli, F., Avula, S., McCabe, M. G., Hayden, J. T., Wesseling, P., Øra, I., Nistér, M., Kranendonk, M. E. G., Tops, B. B. J., Zapotocky, M., ... Jones, D. T. W. (2023). Amplification of the PLAG-family genes—PLAGL1 and PLAGL2—is a key feature of the novel tumor type CNS embryonal tumor with PLAGL amplification. Acta Neuropathologica, 145(1), 49-69. https://doi.org/10.1007/s00401-022-02516-2

@article{2b0516f5364e4cc1985aba723a348c92,

title = "Amplification of the PLAG-family genes—PLAGL1 and PLAGL2—is a key feature of the novel tumor type CNS embryonal tumor with PLAGL amplification",

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.",

keywords = "Molecular neuro-oncology, PLAGL1, PLAGL2, Pediatric cancer",

author = "Michaela-Kristina Keck and Martin Sill and Andrea Wittmann and Piyush Joshi and Damian Stichel and Pengbo Beck and Konstantin Okonechnikow and Philipp Sievers and Wefers, {Annika K.} and Federico Roncaroli and Shivaram Avula and McCabe, {Martin G.} and Hayden, {James T.} and Pieter Wesseling and Ingrid {\O}ra and Monica Nist{\'e}r and Kranendonk, {Mari{\"e}tte E. G.} and Tops, {Bastiaan B. J.} and Michal Zapotocky and Josef Zamecnik and Alexandre Vasiljevic and Tanguy Fenouil and David Meyronet and {von Hoff}, Katja and Ulrich Sch{\"u}ller and Hugues Loiseau and Dominique Figarella-Branger and Kramm, {Christof M.} and Dominik Sturm and David Scheie and Tuomas Rauramaa and Jouni Pesola and Johannes Gojo and Christine Haberler and Sebastian Brandner and Tom Jacques and {Sexton Oates}, Alexandra and Richard Saffery and Ewa Koscielniak and Baker, {Suzanne J.} and Stephen Yip and Matija Snuderl and {Ud Din}, Nasir and David Samuel and Kathrin Schramm and Mirjam Blattner-Johnson and Florian Selt and Jonas Ecker and Till Milde and {von Deimling}, Andreas and Andrey Korshunov and Arie Perry and Pfister, {Stefan M.} and Felix Sahm and Solomon, {David A.} and Jones, {David T. W.}",

note = "Funding Information: We thank the German Cancer Research Centre (DKFZ) Genomics and Proteomics Core Facility and Laura D{\"o}rner, Katharina M{\"u}ller, Lea Hofmann (Department of Neuropathology, Institute of Pathology at the University Hospital Heidelberg). This work was supported by the German Childhood Cancer Foundation (“Neuropath 2.0—Increasing diagnostic accuracy in pediatric neurooncology”; DKS 2015.01), the Everest Centre for Low-Grade Paediatric Brain Tumour Research (The Brain Tumour Charity, UK; GN-000382), the Brain Tumor Charity (UK), grant number QfC_2019/1_10507, the German Federal Ministry of Education and Research (BMBF), and Canc{\'e}rop{\^o}le Lyon Auvergne Rh{\^o}ne-Alpes (CLARA). A subset of the human tissue was obtained from the CRB-Cancer, CHU de Bordeaux. A subset of the human tissue was obtained from University College London NHS Foundation Trust as part of the UK Brain Archive Information Network (BRAIN UK, Ref: 19/001) which is funded by the Medical Research Council and Brain Tumour Research UK. S. Brandner was also supported by the Department of Health{\textquoteright}s NIHR Biomedical Research Centre's funding scheme to University College London Hospitals. Ulrich Sch{\"u}ller was supported by the F{\"o}rdergemeinschaft Kinderkrebszentrum Hamburg, Germany. Pediatric brain tumor research in the Solomon Lab is supported by the Morgan Adams Foundation, the Yuvaan Tiwari Foundation, and a Developmental Research Program award from the UCSF Brain Tumor SPORE grant from the National Cancer Institute, National Institutes of Health (P50 CA097257). DNA methylation profiling at NYU was in part supported by grants from the Friedberg Charitable Foundation, the Sohn Conference Foundation and the Making Headway Foundation (to M. Snuderl.). Pediatric brain tumor research at Karolinska Institutet as well as The Swedish Childhood Tumor Biobank (Karolinska Institutet, Stockholm, Sweden) were supported by the Swedish Childhood Cancer Fund. The molecular biology lab at the Olgahospital/Klinikum Stuttgart (Stuttgart, Germany) was supported by the F{\"o}rderkreis Krebskranke Kinder e.V Stuttgart. Funding Information: We thank the German Cancer Research Centre (DKFZ) Genomics and Proteomics Core Facility and Laura D{\"o}rner, Katharina M{\"u}ller, Lea Hofmann (Department of Neuropathology, Institute of Pathology at the University Hospital Heidelberg). This work was supported by the German Childhood Cancer Foundation (“Neuropath 2.0—Increasing diagnostic accuracy in pediatric neurooncology”; DKS 2015.01), the Everest Centre for Low-Grade Paediatric Brain Tumour Research (The Brain Tumour Charity, UK; GN-000382), the Brain Tumor Charity (UK), grant number QfC_2019/1_10507, the German Federal Ministry of Education and Research (BMBF), and Canc{\'e}rop{\^o}le Lyon Auvergne Rh{\^o}ne-Alpes (CLARA). A subset of the human tissue was obtained from the CRB-Cancer, CHU de Bordeaux. A subset of the human tissue was obtained from University College London NHS Foundation Trust as part of the UK Brain Archive Information Network (BRAIN UK, Ref: 19/001) which is funded by the Medical Research Council and Brain Tumour Research UK. S. Brandner was also supported by the Department of Health{\textquoteright}s NIHR Biomedical Research Centre's funding scheme to University College London Hospitals. Ulrich Sch{\"u}ller was supported by the F{\"o}rdergemeinschaft Kinderkrebszentrum Hamburg, Germany. Pediatric brain tumor research in the Solomon Lab is supported by the Morgan Adams Foundation, the Yuvaan Tiwari Foundation, and a Developmental Research Program award from the UCSF Brain Tumor SPORE grant from the National Cancer Institute, National Institutes of Health (P50 CA097257). DNA methylation profiling at NYU was in part supported by grants from the Friedberg Charitable Foundation, the Sohn Conference Foundation and the Making Headway Foundation (to M. Snuderl.). Pediatric brain tumor research at Karolinska Institutet as well as The Swedish Childhood Tumor Biobank (Karolinska Institutet, Stockholm, Sweden) were supported by the Swedish Childhood Cancer Fund. The molecular biology lab at the Olgahospital/Klinikum Stuttgart (Stuttgart, Germany) was supported by the F{\"o}rderkreis Krebskranke Kinder e.V Stuttgart. Publisher Copyright: {\textcopyright} 2022, The Author(s).",

year = "2023",

month = jan,

doi = "https://doi.org/10.1007/s00401-022-02516-2",

language = "English",

volume = "145",

pages = "49--69",

journal = "Acta Neuropathologica",

issn = "0001-6322",

publisher = "Springer Verlag",

number = "1",

}

Keck, M-K, Sill, M, Wittmann, A, Joshi, P, Stichel, D, Beck, P, Okonechnikow, K, Sievers, P, Wefers, AK, Roncaroli, F, Avula, S, McCabe, MG, Hayden, JT, Wesseling, P, Øra, I, Nistér, M, Kranendonk, MEG, Tops, BBJ, Zapotocky, M, Zamecnik, J, Vasiljevic, A, Fenouil, T, Meyronet, D, von Hoff, K, Schüller, U, Loiseau, H, Figarella-Branger, D, Kramm, CM, Sturm, D, Scheie, D, Rauramaa, T, Pesola, J, Gojo, J, Haberler, C, Brandner, S, Jacques, T, Sexton Oates, A, Saffery, R, Koscielniak, E, Baker, SJ, Yip, S, Snuderl, M, Ud Din, N, Samuel, D, Schramm, K, Blattner-Johnson, M, Selt, F, Ecker, J, Milde, T, von Deimling, A, Korshunov, A, Perry, A, Pfister, SM, Sahm, F, Solomon, DA & Jones, DTW 2023, 'Amplification of the PLAG-family genes—PLAGL1 and PLAGL2—is a key feature of the novel tumor type CNS embryonal tumor with PLAGL amplification', Acta Neuropathologica, vol. 145, no. 1, pp. 49-69. https://doi.org/10.1007/s00401-022-02516-2

TY - JOUR

T1 - Amplification of the PLAG-family genes—PLAGL1 and PLAGL2—is a key feature of the novel tumor type CNS embryonal tumor with PLAGL amplification

AU - Keck, Michaela-Kristina

AU - Sill, Martin

AU - Wittmann, Andrea

AU - Joshi, Piyush

AU - Stichel, Damian

AU - Beck, Pengbo

AU - Okonechnikow, Konstantin

AU - Sievers, Philipp

AU - Wefers, Annika K.

AU - Roncaroli, Federico

AU - Avula, Shivaram

AU - McCabe, Martin G.

AU - Hayden, James T.

AU - Wesseling, Pieter

AU - Øra, Ingrid

AU - Nistér, Monica

AU - Kranendonk, Mariëtte E. G.

AU - Tops, Bastiaan B. J.

AU - Zapotocky, Michal

AU - Zamecnik, Josef

AU - Vasiljevic, Alexandre

AU - Fenouil, Tanguy

AU - Meyronet, David

AU - von Hoff, Katja

AU - Schüller, Ulrich

AU - Loiseau, Hugues

AU - Figarella-Branger, Dominique

AU - Kramm, Christof M.

AU - Sturm, Dominik

AU - Scheie, David

AU - Rauramaa, Tuomas

AU - Pesola, Jouni

AU - Gojo, Johannes

AU - Haberler, Christine

AU - Brandner, Sebastian

AU - Jacques, Tom

AU - Sexton Oates, Alexandra

AU - Saffery, Richard

AU - Koscielniak, Ewa

AU - Baker, Suzanne J.

AU - Yip, Stephen

AU - Snuderl, Matija

AU - Ud Din, Nasir

AU - Samuel, David

AU - Schramm, Kathrin

AU - Blattner-Johnson, Mirjam

AU - Selt, Florian

AU - Ecker, Jonas

AU - Milde, Till

AU - von Deimling, Andreas

AU - Korshunov, Andrey

AU - Perry, Arie

AU - Pfister, Stefan M.

AU - Sahm, Felix

AU - Solomon, David A.

AU - Jones, David T. W.

N1 - Funding Information: We thank the German Cancer Research Centre (DKFZ) Genomics and Proteomics Core Facility and Laura Dörner, Katharina Müller, Lea Hofmann (Department of Neuropathology, Institute of Pathology at the University Hospital Heidelberg). This work was supported by the German Childhood Cancer Foundation (“Neuropath 2.0—Increasing diagnostic accuracy in pediatric neurooncology”; DKS 2015.01), the Everest Centre for Low-Grade Paediatric Brain Tumour Research (The Brain Tumour Charity, UK; GN-000382), the Brain Tumor Charity (UK), grant number QfC_2019/1_10507, the German Federal Ministry of Education and Research (BMBF), and Cancéropôle Lyon Auvergne Rhône-Alpes (CLARA). A subset of the human tissue was obtained from the CRB-Cancer, CHU de Bordeaux. A subset of the human tissue was obtained from University College London NHS Foundation Trust as part of the UK Brain Archive Information Network (BRAIN UK, Ref: 19/001) which is funded by the Medical Research Council and Brain Tumour Research UK. S. Brandner was also supported by the Department of Health’s NIHR Biomedical Research Centre's funding scheme to University College London Hospitals. Ulrich Schüller was supported by the Fördergemeinschaft Kinderkrebszentrum Hamburg, Germany. Pediatric brain tumor research in the Solomon Lab is supported by the Morgan Adams Foundation, the Yuvaan Tiwari Foundation, and a Developmental Research Program award from the UCSF Brain Tumor SPORE grant from the National Cancer Institute, National Institutes of Health (P50 CA097257). DNA methylation profiling at NYU was in part supported by grants from the Friedberg Charitable Foundation, the Sohn Conference Foundation and the Making Headway Foundation (to M. Snuderl.). Pediatric brain tumor research at Karolinska Institutet as well as The Swedish Childhood Tumor Biobank (Karolinska Institutet, Stockholm, Sweden) were supported by the Swedish Childhood Cancer Fund. The molecular biology lab at the Olgahospital/Klinikum Stuttgart (Stuttgart, Germany) was supported by the Förderkreis Krebskranke Kinder e.V Stuttgart. Funding Information: We thank the German Cancer Research Centre (DKFZ) Genomics and Proteomics Core Facility and Laura Dörner, Katharina Müller, Lea Hofmann (Department of Neuropathology, Institute of Pathology at the University Hospital Heidelberg). This work was supported by the German Childhood Cancer Foundation (“Neuropath 2.0—Increasing diagnostic accuracy in pediatric neurooncology”; DKS 2015.01), the Everest Centre for Low-Grade Paediatric Brain Tumour Research (The Brain Tumour Charity, UK; GN-000382), the Brain Tumor Charity (UK), grant number QfC_2019/1_10507, the German Federal Ministry of Education and Research (BMBF), and Cancéropôle Lyon Auvergne Rhône-Alpes (CLARA). A subset of the human tissue was obtained from the CRB-Cancer, CHU de Bordeaux. A subset of the human tissue was obtained from University College London NHS Foundation Trust as part of the UK Brain Archive Information Network (BRAIN UK, Ref: 19/001) which is funded by the Medical Research Council and Brain Tumour Research UK. S. Brandner was also supported by the Department of Health’s NIHR Biomedical Research Centre's funding scheme to University College London Hospitals. Ulrich Schüller was supported by the Fördergemeinschaft Kinderkrebszentrum Hamburg, Germany. Pediatric brain tumor research in the Solomon Lab is supported by the Morgan Adams Foundation, the Yuvaan Tiwari Foundation, and a Developmental Research Program award from the UCSF Brain Tumor SPORE grant from the National Cancer Institute, National Institutes of Health (P50 CA097257). DNA methylation profiling at NYU was in part supported by grants from the Friedberg Charitable Foundation, the Sohn Conference Foundation and the Making Headway Foundation (to M. Snuderl.). Pediatric brain tumor research at Karolinska Institutet as well as The Swedish Childhood Tumor Biobank (Karolinska Institutet, Stockholm, Sweden) were supported by the Swedish Childhood Cancer Fund. The molecular biology lab at the Olgahospital/Klinikum Stuttgart (Stuttgart, Germany) was supported by the Förderkreis Krebskranke Kinder e.V Stuttgart. Publisher Copyright: © 2022, The Author(s).

PY - 2023/1

Y1 - 2023/1

N2 - 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.

AB - 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.

KW - Molecular neuro-oncology

KW - PLAGL1

KW - PLAGL2

KW - Pediatric cancer

UR - http://www.scopus.com/inward/record.url?scp=85142699661&partnerID=8YFLogxK

U2 - https://doi.org/10.1007/s00401-022-02516-2

DO - https://doi.org/10.1007/s00401-022-02516-2

M3 - Article

C2 - 36437415

SN - 0001-6322

VL - 145

SP - 49

EP - 69

JO - Acta Neuropathologica

JF - Acta Neuropathologica

IS - 1

ER -

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

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