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Phylogenetic analysis of paired breast carcinomas identifies genetic events associated with clonal recurrence and invasive progression

Kader, Tanjina; Zethoven Sakshi Mahale, Maia; Saunders, Hugo; Tjoeka, Lauren; Lehmann, Rebecca; Jayawardana, Madawa W.; Pang, Jia-Min; Lesche, Dorothea; Rajan, Neeha; Semple, Timothy; Er Amanda Lee, Jue; Lupat, Richard; Byrne, David J.; Hughes, Siobhan; Nguyen, Hoa; Lai, Siqi; Pechlivanis, Maree; Craig, Olivia; Devereux, Lisa; House, Eloise; Jayasinghe, Sureshni I.; Kaufmann, Tom L.; Schwarz, Roland F.; Green, Andrew R.; Miligy, Islam M.; Cummings, Margaret; Lakhani, Sunil; Campbell, Ian G.; Rakha, Emad; Fox, Stephen B.; Mann, G. Bruce; Gorringe, Kylie L.

Authors

Tanjina Kader

Maia Zethoven Sakshi Mahale

Hugo Saunders

Lauren Tjoeka

Rebecca Lehmann

Madawa W. Jayawardana

Jia-Min Pang

Dorothea Lesche

Neeha Rajan

Timothy Semple

Jue Er Amanda Lee

Richard Lupat

David J. Byrne

Siobhan Hughes

Hoa Nguyen

Siqi Lai

Maree Pechlivanis

Olivia Craig

Lisa Devereux

Eloise House

Sureshni I. Jayasinghe

Tom L. Kaufmann

Roland F. Schwarz

Islam M. Miligy

Margaret Cummings

Sunil Lakhani

Ian G. Campbell

Stephen B. Fox

G. Bruce Mann

Kylie L. Gorringe



Abstract

Development of ipsilateral breast carcinoma following diagnosis of breast ductal carcinoma in situ (DCIS) has been assumed to represent recurrence of the primary tumour. However, this may not be the case and it is important to know how often recurrences are new tumours. Ipsilateral primary-recurrence pairs (n=78) were sequenced to test their clonal relatedness. Shared genetic events were identified from whole exome sequencing (n=54 pairs) using haplotype-specific copy number and phylogenetic analysis. The remaining pairs were sequenced by a targeted panel or low-coverage whole genome sequencing. We included 32 non-recurrent DCIS to compare recurrent and non-recurrent disease. We found that 7% of DCIS recurrences were non-clonal by whole exome sequencing, indicative of a new breast carcinoma. Lower resolution methods detected a higher non-clonality rate (29%). Comparing primary DCIS with their recurrences found that evolution of DCIS to invasive disease was associated with increased ploidy and copy number events. TP53 mutations were enriched in DCIS with clonal recurrence compared with non-recurrent DCIS. Our results verify that de novo “recurrent tumours” of independent origin occur in patients who may be at high risk.

Citation

Kader, T., Zethoven Sakshi Mahale, M., Saunders, H., Tjoeka, L., Lehmann, R., Jayawardana, M. W., Pang, J.-M., Lesche, D., Rajan, N., Semple, T., Er Amanda Lee, J., Lupat, R., Byrne, D. J., Hughes, S., Nguyen, H., Lai, S., Pechlivanis, M., Craig, O., Devereux, L., House, E., …Gorringe, K. L. (in press). Phylogenetic analysis of paired breast carcinomas identifies genetic events associated with clonal recurrence and invasive progression. Journal of Pathology,

Journal Article Type Article
Acceptance Date Jul 12, 2025
Deposit Date Jul 14, 2025
Journal Journal of Pathology
Print ISSN 0022-3417
Electronic ISSN 1096-9896
Publisher Wiley
Peer Reviewed Peer Reviewed
Keywords ductal carcinoma in situ, recurrence, clonality, breast neoplasm, whole exome sequencing, phylogenetic analysis
Public URL https://nottingham-repository.worktribe.com/output/51611237

This file is under embargo due to copyright reasons.







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