Abstract
Human papillomavirus (HPV) DNA integration is a crucial event in cervical carcinogenesis. However, scarce studies have focused on studying HPV integration (HPVint) in early-stage cervical lesions. Using HPV capture followed by sequencing, we investigated HPVint in pre-tumor cervical lesions. Employing a novel pipeline, we analyzed reads containing direct evidence of the integration breakpoint. We observed multiple HPV infections in most of the samples (92%) with a median integration rate of 0.06% relative to HPV mapped reads corresponding to two or more sequence breakages. Unlike cancer studies, most integrations events were unique (supported by one read), consistent with the lack of clonal selection. Congruent to other studies, we found that breakpoints could occur, practically, in any part of the viral genome. We noted that L1 had a higher frequency of rupture integration (25%). Based on host genome integration frequencies, we found previously reported integration sites in cancer for genes like FHIT, CSMD1, and LRP1B and putatively many new ones such as those exemplified in CSMD3, ROBO2, and SETD3. Similar host integrations regions and genes were observed in diverse HPV types within many genes and even equivalent integration positions in different samples and HPV types. Interestingly, we noted an enrichment of integrations in most centromeres, suggesting a possible mechanism where HPV exploits this structural machinery to facilitate integration. Supported by previous findings, overall, our analysis provides novel information and insights about HPVint.
Highlights
Cervical cancer (CC) is the is the fourth most common malignancy and a leading cause of mortality in women worldwide [1]
Samples were grouped according to Pap smear result: Normal, atypical squamous cells of undetermined significance (ASCUS), low-grade cervical lesions (LSIL), high-grade cervical lesions (HSIL), and Unknown
Based on host genome integration frequencies, we found previously reported integration sites like FHIT, CSMD1, and LRP1B and others such as CSMD3, ROBO2, and SETD3
Summary
Cervical cancer (CC) is the is the fourth most common malignancy and a leading cause of mortality in women worldwide [1]. In Mexico, CC is the second most common cancer in women [2]. HPVs belong to the Papillomaviridae family, and more than 225 types have been characterized based on sequence information [4]. HPVs are nonenveloped, circular, double-stranded DNA viruses of approximately 55 nm diameter [5]. HPV genomes are less than 8000 base pair (bp) with one non-coding, long regulatory control region and eight protein-coding genes: L1 and L2 encode capsid proteins, and E1, E2, E4, E5, E6, and E7 encode replication, transcription and transformation proteins [5,6,7]
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