Ongoing chromothripsis underpins osteosarcoma genome complexity and clonal evolution

Jose Espejo Valle-Inclan; Solange De Noon; Katherine Trevers; Hillary Elrick; Ianthe A.E.M. van Belzen; Sonia Zumalave; Carolin M. Sauer; Mélanie Tanguy; Thomas Butters; Francesc Muyas; Alistair G. Rust; Fernanda Amary; Roberto Tirabosco; Adam Giess; Alona Sosinsky; Greg Elgar; Adrienne M. Flanagan; Isidro Cortés-Ciriano

doi:10.1016/j.cell.2024.12.005

Ongoing chromothripsis underpins osteosarcoma genome complexity and clonal evolution

Jose Espejo Valle-Inclan
, Solange De Noon
, Katherine Trevers
, Hillary Elrick
, Ianthe A.E.M. van Belzen
, Sonia Zumalave
, Carolin M. Sauer
, Mélanie Tanguy
, Thomas Butters
, Francesc Muyas
, Alistair G. Rust
, Fernanda Amary
, Roberto Tirabosco
, Adam Giess
, Alona Sosinsky
, Greg Elgar
, Adrienne M. Flanagan
, Isidro Cortés-Ciriano

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

47 Citations (Scopus)

Abstract

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.

Original language	English
Pages (from-to)	352-370.e22
Journal	Cell
Volume	188
Issue number	2
DOIs	https://doi.org/10.1016/j.cell.2024.12.005
Publication status	Published - 23 Jan 2025
Externally published	Yes

Keywords

TP53
breakage-fusion-bridge cycles
cancer evolution
chromosomal instability
chromothripsis
complex genome rearrangements
extrachromosomal DNA
genomic instability
osteosarcoma
whole-genome duplication
Osteosarcoma/genetics
Translocation, Genetic
Loss of Heterozygosity/genetics
Humans
Male
Adult
Female
Child
Clonal Evolution/genetics
Tumor Suppressor Protein p53/genetics
Bone Neoplasms/genetics
Chromothripsis
Whole Genome Sequencing
Mutation
Genome, Human

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10.1016/j.cell.2024.12.005

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Espejo Valle-Inclan, J., De Noon, S., Trevers, K., Elrick, H., van Belzen, I. A. E. M., Zumalave, S., Sauer, C. M., Tanguy, M., Butters, T., Muyas, F., Rust, A. G., Amary, F., Tirabosco, R., Giess, A., Sosinsky, A., Elgar, G., Flanagan, A. M., & Cortés-Ciriano, I. (2025). Ongoing chromothripsis underpins osteosarcoma genome complexity and clonal evolution. Cell, 188(2), 352-370.e22. https://doi.org/10.1016/j.cell.2024.12.005

@article{2da249684d7c4ac6999a816da8f1444f,

title = "Ongoing chromothripsis underpins osteosarcoma genome complexity and clonal evolution",

abstract = "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.",

keywords = "TP53, breakage-fusion-bridge cycles, cancer evolution, chromosomal instability, chromothripsis, complex genome rearrangements, extrachromosomal DNA, genomic instability, osteosarcoma, whole-genome duplication, Osteosarcoma/genetics, Translocation, Genetic, Loss of Heterozygosity/genetics, Humans, Male, Adult, Female, Child, Clonal Evolution/genetics, Tumor Suppressor Protein p53/genetics, Bone Neoplasms/genetics, Chromothripsis, Whole Genome Sequencing, Mutation, Genome, Human",

author = "\{Espejo Valle-Inclan\}, Jose and \{De Noon\}, Solange and Katherine Trevers and Hillary Elrick and \{van Belzen\}, \{Ianthe A.E.M.\} and Sonia Zumalave and Sauer, \{Carolin M.\} and M{\'e}lanie Tanguy and Thomas Butters and Francesc Muyas and Rust, \{Alistair G.\} and Fernanda Amary and Roberto Tirabosco and Adam Giess and Alona Sosinsky and Greg Elgar and Flanagan, \{Adrienne M.\} and Isidro Cort{\'e}s-Ciriano",

year = "2025",

month = jan,

day = "23",

doi = "10.1016/j.cell.2024.12.005",

language = "English",

volume = "188",

pages = "352--370.e22",

journal = "Cell",

issn = "0092-8674",

publisher = "Elsevier B.V.",

number = "2",

}

Espejo Valle-Inclan, J, De Noon, S, Trevers, K, Elrick, H, van Belzen, IAEM, Zumalave, S, Sauer, CM, Tanguy, M, Butters, T, Muyas, F, Rust, AG, Amary, F, Tirabosco, R, Giess, A, Sosinsky, A, Elgar, G, Flanagan, AM & Cortés-Ciriano, I 2025, 'Ongoing chromothripsis underpins osteosarcoma genome complexity and clonal evolution', Cell, vol. 188, no. 2, pp. 352-370.e22. https://doi.org/10.1016/j.cell.2024.12.005

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

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 -

Ongoing chromothripsis underpins osteosarcoma genome complexity and clonal evolution

Abstract

Keywords

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