Single-Molecule Sequencing Enables Long Cell-Free DNA Detection and Direct Methylation Analysis for Cancer Patients

• Published in: Clinical chemistry (Baltimore, Md.) Vol. 68; no. 9; pp. 1151 - 1163
• Main Authors: Choy, L Y Lois, Peng, Wenlei, Jiang, Peiyong, Cheng, Suk Hang, Yu, Stephanie C Y, Shang, Huimin, Olivia Tse, O Y, Wong, John, Wong, Vincent Wai Sun, Wong, Grace L H, Lam, W K Jacky, Chan, Stephen L, Chiu, Rossa W K, Chan, K C Allen, Lo, Y M Dennis
• Format: Journal Article
• Language: English
• Published: England Oxford University Press 01.09.2022
• Subjects: Cell-free DNA; Epigenetics; Liquid biopsy; Third-generation sequencing; Tissue of origin; Cancer
• ISSN: 0009-9147; 1530-8561
• DOI: 10.1093/clinchem/hvac086

Abstract Background Analysis of circulating tumor DNA has become increasingly important as a tool for cancer care. However, the focus of previous studies has been on short fragments of DNA. Also, bisulfite sequencing, a conventional approach for methylation analysis, causes DNA degradation, which is not ideal for the assessment of long DNA properties and methylation patterns. This study attempted to overcome such obstacles by single-molecule sequencing. Methods Single-molecule real-time (SMRT) sequencing was used to sequence plasma DNA. We performed fragment size and direct methylation analysis for each molecule. A methylation score concerning single-molecule methylation patterns was used for cancer detection. Results A substantial proportion of plasma DNA was longer than 1 kb with a median of 16% in hepatocellular carcinoma (HCC) patients, hepatitis B virus carriers, and healthy individuals. The longest plasma DNA molecule in the HCC patients was 39.8 kb. Tumoral cell-free DNA (cfDNA) was generally shorter than nontumoral cfDNA. The longest tumoral cfDNA was 13.6 kb. Tumoral cfDNA had lower methylation levels compared with nontumoral cfDNA (median: 59.3% vs 76.9%). We developed and analyzed a metric reflecting single-molecule methylation patterns associated with cancer, named the HCC methylation score. HCC patients displayed significantly higher HCC methylation scores than those without HCC. Interestingly, compared to using short cfDNA (area under the receiver operating characteristic [ROC] curve, AUC: 0.75), the use of long cfDNA molecules greatly enhanced the discriminatory power (AUC: 0.91). Conclusions A previously unidentified long cfDNA population was revealed in cancer patients. The presence and direct methylation analysis of these molecules open new possibilities for cancer liquid biopsy.