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Archival single-cell genomics reveals persistent subclones during DCIS progression.

Kaile Wang ,
Tapsi Kumar ,
Junke Wang ,
Darlan Conterno Minussi ,
Emi Sei ,
Jianzhuo Li ,
Tuan M Tran ,
Aatish Thennavan ,
Min Hu ,
Anna K Casasent ,
Zhenna Xiao ,
Shanshan Bai ,
Lei Yang ,
Lorraine M King ,
Vandna Shah ,
Petra Kristel ,
Carolien L van der Borden ,
Jeffrey R Marks ,
Yuehui Zhao ,
Amado J Zurita ,
Ana Aparicio ,
Brian Chapin ,
Jie Ye ,
Jianjun Zhang ,
Don L Gibbons ,
,
Ellinor Sawyer ,
Alastair M Thompson ,
Andrew Futreal ,
E Shelley Hwang ,
Jelle Wesseling ,
Esther H Lips ,
Nicholas E Navin

Abstract

Ductal carcinoma in situ (DCIS) is a common precursor of invasive breast cancer. Our understanding of its genomic progression to recurrent disease remains poor, partly due to challenges associated with the genomic profiling of formalin-fixed paraffin-embedded (FFPE) materials. Here, we developed Arc-well, a high-throughput single-cell DNA-sequencing method that is compatible with FFPE materials. We validated our method by profiling 40,330 single cells from cell lines, a frozen tissue, and 27 FFPE samples from breast, lung, and prostate tumors stored for 3-31 years. Analysis of 10 patients with matched DCIS and cancers that recurred 2-16 years later show that many primary DCIS had already undergone whole-genome doubling and clonal diversification and that they shared genomic lineages with persistent subclones in the recurrences. Evolutionary analysis suggests that most DCIS cases in our cohort underwent an evolutionary bottleneck, and further identified chromosome aberrations in the persistent subclones that were associated with recurrence.

More about this publication

Cell

Volume 186
Issue nr. 18
Pages 3968-3982.e15
Publication date 31-08-2023

Full text links

Publisher website (DOI) 10.1016/j.cell.2023.07.024
Europe PubMed Central 37586362
Pubmed 37586362

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