부산대학교 도서관

Background: Human papillomavirus (HPV)16 can be separated into genetic sub-lineages (A1–4, B1–4, C1–4, D1–4) which may have differential cervical cancer risk. Methods: A next-generation sequencing assay was used to whole-genome sequence 7116 HPV16-positive cervical samples from well-characterised international epidemiological studies, including 2076 controls, 1878 squamous cell carcinoma (SCC) and 186 adenocarcinoma/adenosquamous cell carcinoma (ADC), and to assign HPV16 sub-lineage. Logistic regression was used to estimate region-stratified country-adjusted odds ratios (OR) and 95%CI. Results: A1 was the most globally widespread sub-lineage, with others showing stronger regional specificity (A3 and A4 for East Asia, B1–4 and C1–4 for Africa, D2 for the Americas, B4, C4 and D4 for North Africa). Increased cancer risks versus A1 were seen for A3, A4 and D (sub)lineages in regions where they were common: A3 in East Asia (OR=2.2, 95%CI:1.0–4.7); A4 in East Asia (6.6, 3.1–14.1) and North America (3.8, 1.7–8.3); and D in North (6.2, 4.1–9.3) and South/Central America (2.2, 0.8–5.7), where D lineages were also more frequent in ADC than SCC (3.2, 1.5–6.5; 12.1, 5.7–25.6, respectively). Conclusions: HPV16 genetic variation can strongly influence cervical cancer risk. However, burden of cervical cancer attributable to different sub-lineages worldwide is largely driven by historical HPV16 sub-lineage dispersal. Keywords: HPV16, Cervical cancer, HPV carcinogenesis, HPV epidemiology, HPV genomics, Whole virus genome sequencing