Genetic predisposition and evolutionary traces of pediatric cancer risk: A prospective 5-year population-based genome sequencing study of children with CNS tumors

Ulrik Kristoffer Stoltze; Jon Foss-Skiftesvik; Thomas van Overeem Hansen; Anna Byrjalsen; Astrid Sehested; David Scheie; Torben Stamm Mikkelsen; Simon Rasmussen; Mads Bak; Henrik Okkels; Michael Thude Callesen; Jane Skjøth-Rasmussen; Anne-Marie Gerdes; Kjeld Schmiegelow; René Mathiasen; Karin Wadt

doi:10.1093/neuonc/noac187

Genetic predisposition and evolutionary traces of pediatric cancer risk: A prospective 5-year population-based genome sequencing study of children with CNS tumors

Ulrik Kristoffer Stoltze, Jon Foss-Skiftesvik^*, Thomas van Overeem Hansen, Anna Byrjalsen, Astrid Sehested, David Scheie, Torben Stamm Mikkelsen, Simon Rasmussen, Mads Bak, Henrik Okkels, Michael Thude Callesen, Jane Skjøth-Rasmussen, Anne-Marie Gerdes, Kjeld Schmiegelow, René Mathiasen, Karin Wadt

^*Corresponding author for this work

Abstract

BACKGROUND: The etiology of central nervous system (CNS) tumors in children is largely unknown and population-based studies of genetic predisposition are lacking.

METHODS: In this prospective, population-based study, we performed germline whole-genome sequencing in 128 children with CNS tumors, supplemented by a systematic pedigree analysis covering 3543 close relatives.

RESULTS: Thirteen children (10%) harbored pathogenic variants in known cancer genes. These children were more likely to have medulloblastoma (OR 5.9, CI 1.6-21.2) and develop metasynchronous CNS tumors (P = 0.01). Similar carrier frequencies were seen among children with low-grade glioma (12.8%) and high-grade tumors (12.2%). Next, considering the high mortality of childhood CNS tumors throughout most of human evolution, we explored known pediatric-onset cancer genes, showing that they are more evolutionarily constrained than genes associated with risk of adult-onset malignancies (P = 5e-4) and all other genes (P = 5e-17). Based on this observation, we expanded our analysis to 2986 genes exhibiting high evolutionary constraint in 141,456 humans. This analysis identified eight directly causative loss-of-functions variants, and showed a dose-response association between degree of constraint and likelihood of pathogenicity-raising the question of the role of other highly constrained gene alterations detected.

CONCLUSIONS: Approximately 10% of pediatric CNS tumors can be attributed to rare variants in known cancer genes. Genes associated with high risk of childhood cancer show evolutionary evidence of constraint.

Original language	English
Journal	Neuro-Oncology
Volume	25
Issue number	4
Pages (from-to)	761-773
Number of pages	13
ISSN	1522-8517
DOIs	https://doi.org/10.1093/neuonc/noac187
Publication status	Published - 6 Apr 2023

Keywords

CNS tumors
childhood cancer
genomics
evolutionary constraint
predisposition

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Stoltze, U. K., Foss-Skiftesvik, J., van Overeem Hansen, T., Byrjalsen, A., Sehested, A., Scheie, D., Mikkelsen, T. S., Rasmussen, S., Bak, M., Okkels, H., Callesen, M. T., Skjøth-Rasmussen, J., Gerdes, A-M., Schmiegelow, K., Mathiasen, R., & Wadt, K. (2023). Genetic predisposition and evolutionary traces of pediatric cancer risk: A prospective 5-year population-based genome sequencing study of children with CNS tumors. Neuro-Oncology, 25(4), 761-773. https://doi.org/10.1093/neuonc/noac187

Genetic predisposition and evolutionary traces of pediatric cancer risk : A prospective 5-year population-based genome sequencing study of children with CNS tumors. / Stoltze, Ulrik Kristoffer ; Foss-Skiftesvik, Jon ; van Overeem Hansen, Thomas et al.

In: Neuro-Oncology, Vol. 25, No. 4, 06.04.2023, p. 761-773.

Research output: Contribution to journal › Journal article › Research › peer-review

Stoltze, UK , Foss-Skiftesvik, J , van Overeem Hansen, T , Byrjalsen, A , Sehested, A , Scheie, D, Mikkelsen, TS, Rasmussen, S, Bak, M, Okkels, H, Callesen, MT, Skjøth-Rasmussen, J , Gerdes, A-M , Schmiegelow, K, Mathiasen, R & Wadt, K 2023, 'Genetic predisposition and evolutionary traces of pediatric cancer risk: A prospective 5-year population-based genome sequencing study of children with CNS tumors', Neuro-Oncology, vol. 25, no. 4, pp. 761-773. https://doi.org/10.1093/neuonc/noac187

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title = "Genetic predisposition and evolutionary traces of pediatric cancer risk: A prospective 5-year population-based genome sequencing study of children with CNS tumors",

abstract = "BACKGROUND: The etiology of central nervous system (CNS) tumors in children is largely unknown and population-based studies of genetic predisposition are lacking.METHODS: In this prospective, population-based study, we performed germline whole-genome sequencing in 128 children with CNS tumors, supplemented by a systematic pedigree analysis covering 3543 close relatives.RESULTS: Thirteen children (10%) harbored pathogenic variants in known cancer genes. These children were more likely to have medulloblastoma (OR 5.9, CI 1.6-21.2) and develop metasynchronous CNS tumors (P = 0.01). Similar carrier frequencies were seen among children with low-grade glioma (12.8%) and high-grade tumors (12.2%). Next, considering the high mortality of childhood CNS tumors throughout most of human evolution, we explored known pediatric-onset cancer genes, showing that they are more evolutionarily constrained than genes associated with risk of adult-onset malignancies (P = 5e-4) and all other genes (P = 5e-17). Based on this observation, we expanded our analysis to 2986 genes exhibiting high evolutionary constraint in 141,456 humans. This analysis identified eight directly causative loss-of-functions variants, and showed a dose-response association between degree of constraint and likelihood of pathogenicity-raising the question of the role of other highly constrained gene alterations detected.CONCLUSIONS: Approximately 10% of pediatric CNS tumors can be attributed to rare variants in known cancer genes. Genes associated with high risk of childhood cancer show evolutionary evidence of constraint.",

keywords = "CNS tumors, childhood cancer, genomics, evolutionary constraint, predisposition",

author = "Stoltze, {Ulrik Kristoffer} and Jon Foss-Skiftesvik and {van Overeem Hansen}, Thomas and Anna Byrjalsen and Astrid Sehested and David Scheie and Mikkelsen, {Torben Stamm} and Simon Rasmussen and Mads Bak and Henrik Okkels and Callesen, {Michael Thude} and Jane Skj{\o}th-Rasmussen and Anne-Marie Gerdes and Kjeld Schmiegelow and Ren{\'e} Mathiasen and Karin Wadt",

note = "{\textcopyright} The Author(s) 2022. Published by Oxford University Press on behalf of the Society for Neuro-Oncology. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.",

year = "2023",

month = apr,

day = "6",

doi = "10.1093/neuonc/noac187",

language = "English",

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pages = "761--773",

journal = "Neuro-Oncology",

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TY - JOUR

T1 - Genetic predisposition and evolutionary traces of pediatric cancer risk

T2 - A prospective 5-year population-based genome sequencing study of children with CNS tumors

AU - Stoltze, Ulrik Kristoffer

AU - Foss-Skiftesvik, Jon

AU - van Overeem Hansen, Thomas

AU - Byrjalsen, Anna

AU - Sehested, Astrid

AU - Scheie, David

AU - Mikkelsen, Torben Stamm

AU - Rasmussen, Simon

AU - Bak, Mads

AU - Okkels, Henrik

AU - Callesen, Michael Thude

AU - Skjøth-Rasmussen, Jane

AU - Gerdes, Anne-Marie

AU - Schmiegelow, Kjeld

AU - Mathiasen, René

AU - Wadt, Karin

PY - 2023/4/6

Y1 - 2023/4/6

N2 - BACKGROUND: The etiology of central nervous system (CNS) tumors in children is largely unknown and population-based studies of genetic predisposition are lacking.METHODS: In this prospective, population-based study, we performed germline whole-genome sequencing in 128 children with CNS tumors, supplemented by a systematic pedigree analysis covering 3543 close relatives.RESULTS: Thirteen children (10%) harbored pathogenic variants in known cancer genes. These children were more likely to have medulloblastoma (OR 5.9, CI 1.6-21.2) and develop metasynchronous CNS tumors (P = 0.01). Similar carrier frequencies were seen among children with low-grade glioma (12.8%) and high-grade tumors (12.2%). Next, considering the high mortality of childhood CNS tumors throughout most of human evolution, we explored known pediatric-onset cancer genes, showing that they are more evolutionarily constrained than genes associated with risk of adult-onset malignancies (P = 5e-4) and all other genes (P = 5e-17). Based on this observation, we expanded our analysis to 2986 genes exhibiting high evolutionary constraint in 141,456 humans. This analysis identified eight directly causative loss-of-functions variants, and showed a dose-response association between degree of constraint and likelihood of pathogenicity-raising the question of the role of other highly constrained gene alterations detected.CONCLUSIONS: Approximately 10% of pediatric CNS tumors can be attributed to rare variants in known cancer genes. Genes associated with high risk of childhood cancer show evolutionary evidence of constraint.

AB - BACKGROUND: The etiology of central nervous system (CNS) tumors in children is largely unknown and population-based studies of genetic predisposition are lacking.METHODS: In this prospective, population-based study, we performed germline whole-genome sequencing in 128 children with CNS tumors, supplemented by a systematic pedigree analysis covering 3543 close relatives.RESULTS: Thirteen children (10%) harbored pathogenic variants in known cancer genes. These children were more likely to have medulloblastoma (OR 5.9, CI 1.6-21.2) and develop metasynchronous CNS tumors (P = 0.01). Similar carrier frequencies were seen among children with low-grade glioma (12.8%) and high-grade tumors (12.2%). Next, considering the high mortality of childhood CNS tumors throughout most of human evolution, we explored known pediatric-onset cancer genes, showing that they are more evolutionarily constrained than genes associated with risk of adult-onset malignancies (P = 5e-4) and all other genes (P = 5e-17). Based on this observation, we expanded our analysis to 2986 genes exhibiting high evolutionary constraint in 141,456 humans. This analysis identified eight directly causative loss-of-functions variants, and showed a dose-response association between degree of constraint and likelihood of pathogenicity-raising the question of the role of other highly constrained gene alterations detected.CONCLUSIONS: Approximately 10% of pediatric CNS tumors can be attributed to rare variants in known cancer genes. Genes associated with high risk of childhood cancer show evolutionary evidence of constraint.

KW - CNS tumors

KW - childhood cancer

KW - genomics

KW - evolutionary constraint

KW - predisposition

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DO - 10.1093/neuonc/noac187

M3 - Journal article

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VL - 25

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EP - 773

JO - Neuro-Oncology

JF - Neuro-Oncology

SN - 1522-8517

IS - 4

ER -

Genetic predisposition and evolutionary traces of pediatric cancer risk: A prospective 5-year population-based genome sequencing study of children with CNS tumors

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Keywords

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