TY - JOUR
T1 - Ongoing chromothripsis underpins osteosarcoma genome complexity and clonal evolution
AU - Espejo Valle-Inclan, Jose
AU - De Noon, Solange
AU - Trevers, Katherine
AU - Elrick, Hillary
AU - van Belzen, Ianthe A.E.M.
AU - Zumalave, Sonia
AU - Sauer, Carolin M.
AU - Tanguy, Mélanie
AU - Butters, Thomas
AU - Muyas, Francesc
AU - Rust, Alistair G.
AU - Amary, Fernanda
AU - Tirabosco, Roberto
AU - Giess, Adam
AU - Sosinsky, Alona
AU - Elgar, Greg
AU - Flanagan, Adrienne M.
AU - Cortés-Ciriano, Isidro
N1 - Copyright © 2024 The Author(s). Published by Elsevier Inc. All rights reserved.
PY - 2025/1/23
Y1 - 2025/1/23
N2 - Osteosarcoma is the most common primary cancer of the bone, with a peak incidence in children and young adults. Using multi-region whole-genome sequencing, we find that chromothripsis is an ongoing mutational process, occurring subclonally in 74% of osteosarcomas. Chromothripsis generates highly unstable derivative chromosomes, the ongoing evolution of which drives the acquisition of oncogenic mutations, clonal diversification, and intra-tumor heterogeneity across diverse sarcomas and carcinomas. In addition, we characterize a new mechanism, termed loss-translocation-amplification (LTA) chromothripsis, which mediates punctuated evolution in about half of pediatric and adult high-grade osteosarcomas. LTA chromothripsis occurs when a single double-strand break triggers concomitant TP53 inactivation and oncogene amplification through breakage-fusion-bridge cycles. It is particularly prevalent in osteosarcoma and is not detected in other cancers driven by TP53 mutation. Finally, we identify the level of genome-wide loss of heterozygosity as a strong prognostic indicator for high-grade osteosarcoma.
AB - Osteosarcoma is the most common primary cancer of the bone, with a peak incidence in children and young adults. Using multi-region whole-genome sequencing, we find that chromothripsis is an ongoing mutational process, occurring subclonally in 74% of osteosarcomas. Chromothripsis generates highly unstable derivative chromosomes, the ongoing evolution of which drives the acquisition of oncogenic mutations, clonal diversification, and intra-tumor heterogeneity across diverse sarcomas and carcinomas. In addition, we characterize a new mechanism, termed loss-translocation-amplification (LTA) chromothripsis, which mediates punctuated evolution in about half of pediatric and adult high-grade osteosarcomas. LTA chromothripsis occurs when a single double-strand break triggers concomitant TP53 inactivation and oncogene amplification through breakage-fusion-bridge cycles. It is particularly prevalent in osteosarcoma and is not detected in other cancers driven by TP53 mutation. Finally, we identify the level of genome-wide loss of heterozygosity as a strong prognostic indicator for high-grade osteosarcoma.
KW - TP53
KW - breakage-fusion-bridge cycles
KW - cancer evolution
KW - chromosomal instability
KW - chromothripsis
KW - complex genome rearrangements
KW - extrachromosomal DNA
KW - genomic instability
KW - osteosarcoma
KW - whole-genome duplication
KW - Osteosarcoma/genetics
KW - Translocation, Genetic
KW - Loss of Heterozygosity/genetics
KW - Humans
KW - Male
KW - Adult
KW - Female
KW - Child
KW - Clonal Evolution/genetics
KW - Tumor Suppressor Protein p53/genetics
KW - Bone Neoplasms/genetics
KW - Chromothripsis
KW - Whole Genome Sequencing
KW - Mutation
KW - Genome, Human
UR - https://www.mendeley.com/catalogue/c0fb2d59-3b00-36ec-858f-f955f29d878d/
U2 - 10.1016/j.cell.2024.12.005
DO - 10.1016/j.cell.2024.12.005
M3 - Article
C2 - 39814020
AN - SCOPUS:85215071109
SN - 0092-8674
VL - 188
SP - 352-370.e22
JO - Cell
JF - Cell
IS - 2
ER -