Abstract A075: Circulating T-cell receptor repertoire analysis improves cancer early detection

Introduction: Cancer screening by liquid biopsy promises to detect cancer early when it can be cured. However, current ctDNA-based approaches detect only a minority of early-stage cancers. For liquid biopsy to realize its full potential for cancer early detection, sensitivity for earliest stage dise...

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Published in:Clinical cancer research 2024-11, Vol.30 (21_Supplement), p.A075-A075
Main Authors: Li, Yilong, Nahas, Michelle, Stephens, Dennis, Froburg, Kate, Hintz, Emma, Champagne, Devin, Lochab, Amaneet, Brown, Markus, Braun, Jasper, Fortuño, María Antonia, Ocón, María-del-Mar, Pasquier, Andrea, Luque, Inés María, Seder, Christopher W., Borgia, Jeffrey A., Seijo, Luis Miguel, Montuenga, Luis M, Yelensky, Roman
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Language:English
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Summary:Introduction: Cancer screening by liquid biopsy promises to detect cancer early when it can be cured. However, current ctDNA-based approaches detect only a minority of early-stage cancers. For liquid biopsy to realize its full potential for cancer early detection, sensitivity for earliest stage disease must be improved. Methods: We set out to improve sensitivity of liquid biopsy by exploiting tumor recognition by T cells through sequencing of the circulating T-cell receptor repertoire. Using gDNA extracted from blood buffy coats, we studied a cohort of 471 lung cancer patients (85% stage I) and 600 subjects without cancer enriched for older individuals with a history of smoking. We performed TCR beta chain sequencing to yield a median of 101,899 TCR clonotypes per sample (median 81,602 cancer / 112,966 controls) and built a TCR sequence similarity graph to cluster clonotypes into TCR repertoire functional units (RFUs). The TCR frequencies of RFUs were tested for association with cancer status and significantly associated RFUs were combined using an SVM model into a cancer score. Cancer RFU levels were also correlated to imputed subject HLA types for 32 HLA Class I and 38 Class II alleles. The model was evaluated by 10-fold cross-validation and compared to a ctDNA panel of 237 mutation hotspots in 154 lung cancer driver genes and to 17 lung cancer related protein biomarkers in 86 subjects. Results: We identified 372 cancer-associated TCR RFUs at FDR≤0.1, including 198 enriched in cancer samples (fold-change range 1.03 to 3.13) and 174 enriched in controls (fold- change 0.96 to 0.30). Levels of 265/372 (71%) RFUs were correlated to presence of an HLA allele at FDR ≤ 0.1. Of the total 2,770 significant HLA-RFU associations, 479 (17%) involved an HLA Class I allele, while 2,291 (83%) involved an HLA Class II allele, highlighting a potential role for CD4 helper or regulatory T cell antigen recognition in the cancer RFUs found. The RFU cancer score achieved a cross-validated test ROC AUC of 0.71 for cancer status prediction (0.71 Stage I / 0.70 Stage II-IV) with 49% of Stage I cancers detected at a specificity of 80%. Importantly, the cancer score was not dependent on sample source site, technical or biological variation in TCR repertoire depth, or lung cancer histology subtype. The TCR RFU score also distinguished lung cancer patients from control subjects with other conditions such as benign lung nodules and COPD. We observed an up to ∼20%-point gain in sensit
ISSN:1557-3265
1557-3265
DOI:10.1158/1557-3265.LIQBIOP24-A075