Insights into the mechanisms and structure of breakage-fusion-bridge cycles in cervical cancer using long-read sequencing

破损 融合 宫颈癌 桥(图论) 计算生物学 计算机科学 生物 癌症 遗传学 解剖 万维网 语言学 哲学
作者
Isabel Rodriguez,Nicole M. Rossi,Ayşe Gökçe Keşküş,Yi Xie,Tanveer Ahmad,Asher Bryant,Hong Lou,Jesica Godinez Paredes,Rose Milano,Nina Rao,Sonam Tulsyan,Joseph F. Boland,Wen Luo,Jia Liu,Tim O’Hanlon,Jazmyn Bess,Vera Mukhina,Daria A. Gaykalova,Yuko Yuki,Laksh Malik
出处
期刊:American Journal of Human Genetics [Elsevier BV]
卷期号:111 (3): 544-561 被引量:1
标识
DOI:10.1016/j.ajhg.2024.01.002
摘要

Summary

Cervical cancer is caused by human papillomavirus (HPV) infection, has few approved targeted therapeutics, and is the most common cause of cancer death in low-resource countries. We characterized 19 cervical and four head and neck cancer cell lines using long-read DNA and RNA sequencing and identified the HPV types, HPV integration sites, chromosomal alterations, and cancer driver mutations. Structural variation analysis revealed telomeric deletions associated with DNA inversions resulting from breakage-fusion-bridge (BFB) cycles. BFB is a common mechanism of chromosomal alterations in cancer, and our study applies long-read sequencing to this important chromosomal rearrangement type. Analysis of the inversion sites revealed staggered ends consistent with exonuclease digestion of the DNA after breakage. Some BFB events are complex, involving inter- or intra-chromosomal insertions or rearrangements. None of the BFB breakpoints had telomere sequences added to resolve the dicentric chromosomes, and only one BFB breakpoint showed chromothripsis. Five cell lines have a chromosomal region 11q BFB event, with YAP1-BIRC3-BIRC2 amplification. Indeed, YAP1 amplification is associated with a 10-year-earlier age of diagnosis of cervical cancer and is three times more common in African American women. This suggests that individuals with cervical cancer and YAP1-BIRC3-BIRC2 amplification, especially those of African ancestry, might benefit from targeted therapy. In summary, we uncovered valuable insights into the mechanisms and consequences of BFB cycles in cervical cancer using long-read sequencing.

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