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A genetic model for central chondrosarcoma evolution correlates with patient outcome

A genetic model for central chondrosarcoma evolution correlates with patient outcome
A genetic model for central chondrosarcoma evolution correlates with patient outcome

Background: Central conventional chondrosarcoma (CS) is the most common subtype of primary malignant bone tumour in adults. Treatment options are usually limited to surgery, and prognosis is challenging. These tumours are characterised by the presence and absence of IDH1 and IDH2 mutations, and recently, TERT promoter alterations have been reported in around 20% of cases. The effect of these mutations on clinical outcome remains unclear. The purpose of this study was to determine if prognostic accuracy can be improved by the addition of genomic data, and specifically by examination of IDH1, IDH2, and TERT mutations. Methods: In this study, we combined both archival samples and data sourced from the Genomics England 100,000 Genomes Project (n = 356). Mutations in IDH1, IDH2, and TERT were profiled using digital droplet PCR (n = 346), whole genome sequencing (n=68), or both (n = 64). Complex events and other genetic features were also examined, along with methylation array data (n = 84). We correlated clinical features and patient outcomes with our genetic findings. Results: IDH2-mutant tumours occur in older patients and commonly present with high-grade or dedifferentiated disease. Notably, TERT mutations occur most frequently in IDH2-mutant tumours, although have no effect on survival in this group. In contrast, TERT mutations are rarer in IDH1-mutant tumours, yet they are associated with a less favourable outcome in this group. We also found that methylation profiles distinguish IDH1- from IDH2-mutant tumours. IDH wild-type tumours rarely exhibit TERT mutations and tend to be diagnosed in a younger population than those with tumours harbouring IDH1 and IDH2 mutations. A major genetic feature of this group is haploidisation and subsequent genome doubling. These tumours evolve less frequently to dedifferentiated disease and therefore constitute a lower risk group. Conclusions: Tumours with IDH1 or IDH2 mutations or those that are IDHwt have significantly different genetic pathways and outcomes in relation to TERT mutation. Diagnostic testing for IDH1, IDH2, and TERT mutations could therefore help to guide clinical monitoring and prognostication.

Cancer evolution, Chondrosarcoma, Genetics, Genomics, IDH1, IDH2, Sarcoma, TERT
1756-994X
Cross, William
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Lyskjær, Iben
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Lesluyes, Tom
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Hargreaves, Steven
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Strobl, Anna Christina
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Davies, Christopher
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Waise, Sara
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Hames-Fathi, Shadi
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Oukrif, Dahmane
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Ye, Hongtao
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Amary, Fernanda
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Tirabosco, Roberto
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Gerrand, Craig
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Baker, Toby
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Barnes, David
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Steele, Christopher
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Alexandrov, Ludmil
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Bond, Gareth
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Cool, Paul
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Pillay, Nischalan
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Loo, Peter Van
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Flanagan, Adrienne M.
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Genomics England Research Consortium
Cross, William
e59d3098-e39a-439a-8842-96f23f4412ce
Lyskjær, Iben
330aa2e5-e45d-46b6-9dd3-f9b98268fca5
Lesluyes, Tom
052625c4-50b6-474d-ad6e-28295cd79a38
Hargreaves, Steven
c98928d4-36de-493e-832a-d2c403e839aa
Strobl, Anna Christina
957ac01f-3704-447e-99fd-4bff36b54f81
Davies, Christopher
594c3b50-cf96-4cc2-880b-7273546b4a93
Waise, Sara
13f667c5-853e-4120-a2c6-bbc8324e3b2a
Hames-Fathi, Shadi
4746079b-d377-43c8-b586-72626ac047f2
Oukrif, Dahmane
b483497c-5b5c-4bcb-a6cb-cf1e555a89b8
Ye, Hongtao
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Amary, Fernanda
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Tirabosco, Roberto
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Gerrand, Craig
038c6e3f-ea74-4988-be7b-f1d3e3afb7da
Baker, Toby
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Barnes, David
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Steele, Christopher
cb21167d-5aca-4875-927d-4a69b4d1b37c
Alexandrov, Ludmil
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Bond, Gareth
89410a84-9afc-4020-a15d-d0ed9b652ade
Cool, Paul
c193df45-8c6f-4c30-bde4-54d61d5a1dbb
Pillay, Nischalan
c53a6dfd-46e8-4d20-8620-8acd083f07c1
Loo, Peter Van
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Flanagan, Adrienne M.
f6edd1d2-cce9-433c-bad0-61e9f34c5610

Genomics England Research Consortium (2022) A genetic model for central chondrosarcoma evolution correlates with patient outcome. Genome Medicine, 14 (1), [99]. (doi:10.1186/s13073-022-01084-0).

Record type: Article

Abstract

Background: Central conventional chondrosarcoma (CS) is the most common subtype of primary malignant bone tumour in adults. Treatment options are usually limited to surgery, and prognosis is challenging. These tumours are characterised by the presence and absence of IDH1 and IDH2 mutations, and recently, TERT promoter alterations have been reported in around 20% of cases. The effect of these mutations on clinical outcome remains unclear. The purpose of this study was to determine if prognostic accuracy can be improved by the addition of genomic data, and specifically by examination of IDH1, IDH2, and TERT mutations. Methods: In this study, we combined both archival samples and data sourced from the Genomics England 100,000 Genomes Project (n = 356). Mutations in IDH1, IDH2, and TERT were profiled using digital droplet PCR (n = 346), whole genome sequencing (n=68), or both (n = 64). Complex events and other genetic features were also examined, along with methylation array data (n = 84). We correlated clinical features and patient outcomes with our genetic findings. Results: IDH2-mutant tumours occur in older patients and commonly present with high-grade or dedifferentiated disease. Notably, TERT mutations occur most frequently in IDH2-mutant tumours, although have no effect on survival in this group. In contrast, TERT mutations are rarer in IDH1-mutant tumours, yet they are associated with a less favourable outcome in this group. We also found that methylation profiles distinguish IDH1- from IDH2-mutant tumours. IDH wild-type tumours rarely exhibit TERT mutations and tend to be diagnosed in a younger population than those with tumours harbouring IDH1 and IDH2 mutations. A major genetic feature of this group is haploidisation and subsequent genome doubling. These tumours evolve less frequently to dedifferentiated disease and therefore constitute a lower risk group. Conclusions: Tumours with IDH1 or IDH2 mutations or those that are IDHwt have significantly different genetic pathways and outcomes in relation to TERT mutation. Diagnostic testing for IDH1, IDH2, and TERT mutations could therefore help to guide clinical monitoring and prognostication.

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More information

Accepted/In Press date: 7 July 2022
Published date: 30 August 2022
Additional Information: Funding Information: We are grateful to the Biobank Team at the RNOH and RJAH, and all healthcare workers who cared for the patients. We specifically wish to thank the patients for engaging in our research. We acknowledge the work of the Genomics England research consortium: John Ambrose1; Prabhu Arumugam1; Roel Bevers1; Marta Bleda1; Freya Boardman-Pretty1,2; Christopher Boustred1; Helen Brittain1; Mark Caulfield1,2; Georgia Chan1; Greg Elgar1,2; Tom Fowler1; Adam Giess1; Angela Hamblin1; Shirley Henderson1,2; Tim Hubbard1; Rob Jackson1; Louise Jones1,2; Dalia Kasperaviciute1,2; Melis Kayikci1; Athanasios Kousathanas1; Lea Lahnstein1; Sarah Leigh1; Ivonne Leong1; Javier Lopez1; Fiona Maleady-Crowe1; Meriel McEntagart1; Federico Minneci1; Loukas Moutsianas1,2; Michael Mueller1,2; Nirupa Murugaesu1; Anna Need1,2; Peter O’Donovan1; Chris Odhams1; Christine Patch1,2; Mariana Buongermino Pereira1; Daniel Perez-Gil1; John Pullinger1; Tahrima Rahim1; Augusto Rendon1; Tim Rogers1; Kevin Savage1; Kushmita Sawant1; Richard Scott1; Afshan Siddiq1; Alexander Sieghart1; Samuel Smith1; Alona Sosinsky1,2; Alexander Stuckey1; Mélanie Tanguy1; Ana Lisa Taylor Tavares1; Ellen Thomas1,2; Simon Thompson1; Arianna Tucci1,2; Matthew Welland1; Eleanor Williams1; Katarzyna Witkowska1,2; Suzanne Wood1,2. 1. Genomics England, London, UK 2. William Harvey Research Institute, Queen Mary University of London, London, EC1M 6BQ, UK. Publisher Copyright: © 2022, The Author(s).
Keywords: Cancer evolution, Chondrosarcoma, Genetics, Genomics, IDH1, IDH2, Sarcoma, TERT

Identifiers

Local EPrints ID: 480982
URI: http://eprints.soton.ac.uk/id/eprint/480982
DOI: doi:10.1186/s13073-022-01084-0
ISSN: 1756-994X
PURE UUID: 3eed5969-b38b-4bf8-a830-6fbe7d96bc61

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Date deposited: 11 Aug 2023 17:40
Last modified: 17 Mar 2024 13:26

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Contributors

Author: William Cross
Author: Iben Lyskjær
Author: Tom Lesluyes
Author: Steven Hargreaves
Author: Anna Christina Strobl
Author: Christopher Davies
Author: Sara Waise
Author: Shadi Hames-Fathi
Author: Dahmane Oukrif
Author: Hongtao Ye
Author: Fernanda Amary
Author: Roberto Tirabosco
Author: Craig Gerrand
Author: Toby Baker
Author: David Barnes
Author: Christopher Steele
Author: Ludmil Alexandrov
Author: Gareth Bond
Author: Paul Cool
Author: Nischalan Pillay
Author: Peter Van Loo
Author: Adrienne M. Flanagan
Corporate Author: Genomics England Research Consortium

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