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Cross-species genomics matches driver mutations and cell compartments to model ependymoma
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Journal Article
Cross-species genomics matches driver mutations and cell compartments to model ependymoma
2010
Overview
Tumour diversity
Ependymoma is a type of neural tumour that arises throughout the central nervous system. Using comparative transcriptomics in mouse and human tumours, Johnson
et al
. home in on mutations that are specific to individual tumour subgroups. In the course of their study, the authors generate the first mouse model of ependymoma and demonstrate the power of interspecific genomic comparisons to interrogate cancer subgroups.
Ependymoma is a type of neural tumour that arises throughout the central nervous system. Using comparative transcriptomics in mouse and human tumours, these authors home in on mutations that are specific to individual tumour subgroups. In doing so, they generate the first mouse model of ependymoma and demonstrate the power of interspecific genomic comparisons to interrogate cancer subgroups.
Understanding the biology that underlies histologically similar but molecularly distinct subgroups of cancer has proven difficult because their defining genetic alterations are often numerous, and the cellular origins of most cancers remain unknown
1
,
2
,
3
. We sought to decipher this heterogeneity by integrating matched genetic alterations and candidate cells of origin to generate accurate disease models. First, we identified subgroups of human ependymoma, a form of neural tumour that arises throughout the central nervous system (CNS). Subgroup-specific alterations included amplifications and homozygous deletions of genes not yet implicated in ependymoma. To select cellular compartments most likely to give rise to subgroups of ependymoma, we matched the transcriptomes of human tumours to those of mouse neural stem cells (NSCs), isolated from different regions of the CNS at different developmental stages, with an intact or deleted
Ink4a/Arf
locus (that encodes Cdkn2a and b). The transcriptome of human supratentorial ependymomas with amplified
EPHB2
and deleted
INK4A/ARF
matched only that of embryonic cerebral
Ink4a/Arf
−/−
NSCs. Notably, activation of Ephb2 signalling in these, but not other, NSCs generated the first mouse model of ependymoma, which is highly penetrant and accurately models the histology and transcriptome of one subgroup of human supratentorial tumour. Further, comparative analysis of matched mouse and human tumours revealed selective deregulation in the expression and copy number of genes that control synaptogenesis, pinpointing disruption of this pathway as a critical event in the production of this ependymoma subgroup. Our data demonstrate the power of cross-species genomics to meticulously match subgroup-specific driver mutations with cellular compartments to model and interrogate cancer subgroups.
Publisher
Nature Publishing Group UK,Nature Publishing Group
Subject
/ Animal tumors. Experimental tumors
/ Animals
/ Biological and medical sciences
/ Cancer
/ Central Nervous System - cytology
/ Central Nervous System - growth & development
/ Central Nervous System Neoplasms - classification
/ Central Nervous System Neoplasms - genetics
/ Central Nervous System Neoplasms - pathology
/ Experimental nervous system tumors
/ Gene Expression Regulation, Neoplastic
/ Genes
/ Genomics
/ Gliomas
/ Humanities and Social Sciences
/ Humans
/ letter
/ Mice
/ Mutation
/ Polymorphism, Single Nucleotide - genetics
/ Proteins
/ Receptor, EphB2 - metabolism
/ Rodents
/ Science
/ Tumors
