Genetic Variability in L1 and L2 Genes of HPV-16 and HPV-58 in Southwest China

Yaofei Yue,Yue Pan,Junying Chen,Qihan Li,Kun Wu,Xinan Shi,Youqing Ruan,Yujiao Zhao,Lijuan Yang,Qiangming Sun,Hongying Yang,Xinwei Huang,Kun Wu

doi:10.1371/journal.pone.0055204

Abstract

HPV account for most of the incidence of cervical cancer. Approximately 90% of anal cancers and a smaller subset (<50%) of other cancers (oropharyngeal, penile, vaginal, vulvar) are also attributed to HPV. The L1 protein comprising HPV vaccine formulations elicits high-titre neutralizing antibodies and confers type restricted protection. The L2 protein is a promising candidate for a broadly protective HPV vaccine. In our previous study, we found the most prevalent high-risk HPV infectious serotypes were HPV-16 and HPV-58 among women of Southwest China. To explore gene polymorphisms and intratypic variations of HPV-16 and HPV-58 L1/L2 genes originating in Southwest China, HPV-16 (L1: n = 31, L2: n = 28) and HPV-58 (L1: n = 21, L2: n = 21) L1/L2 genes were sequenced and compared to others described and submitted to GenBank. Phylogenetic trees were then constructed by Neighbor-Joining and the Kimura 2-parameters methods (MEGA software), followed by an analysis of the diversity of secondary structure. Then selection pressures acting on the L1/L2 genes were estimated by PAML software. Twenty-nine single nucleotide changes were observed in HPV-16 L1 sequences with 16/29 non-synonymous mutations and 13/29 synonymous mutations (six in alpha helix and two in beta turns). Seventeen single nucleotide changes were observed in HPV-16 L2 sequences with 8/17 non-synonymous mutations (one in beta turn) and 9/17 synonymous mutations. Twenty-four single nucleotide changes were observed in HPV-58 L1 sequences with 10/24 non-synonymous mutations and 14/24 synonymous mutations (eight in alpha helix and four in beta turn). Seven single nucleotide changes were observed in HPV-58 L2 sequences with 4/7 non-synonymous mutations and 3/7 synonymous mutations. The result of selective pressure analysis showed that most of these mutations were of positive selection. This study may help understand the intrinsic geographical relatedness and biological differences of HPV-16/HPV-58 and contributes further to research on their infectivity, pathogenicity, and vaccine strategy.

Highlights

Human Papillomavirus (HPV) virions are one of the most important pathogenic agents for cervical cancer, which accounts for a worldwide cancer burden in women second only to breast cancer [1,2]
On the basis of their oncogenic potential, HPV types that infect the genital tract are classified as low risk (LR) and high risk (HR) [4]
L1 HPV-16 sequences were determined and analyzed by aligning L1 1596 nucleotide sequences from all viral strains (n = 31; including the reference sequences)

Summary

Introduction

Human Papillomavirus (HPV) virions are one of the most important pathogenic agents for cervical cancer, which accounts for a worldwide cancer burden in women second only to breast cancer [1,2]. 90% of anal cancers and a smaller subset (,50%) of other cancers (oropharyngeal, penile, vaginal, and vulvar) are attributed to HPV. HPV accounts for 5.2% of the worldwide cancer burden. On the basis of their oncogenic potential, HPV types that infect the genital tract are classified as low risk (LR) and high risk (HR) [4]. Low-risk HPVs (including HPV-6, 11, 42, 43, and 44) are mainly associated with benign genital warts, while high-risk HPVs (including HPV16, 18, 31, 33, 39, 45, 51, 52, 56, 58, 59, and 68) are the etiological agents of cervical cancer, a disease that affects approximately

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