Global Genomic Diversity of Human Papillomavirus 11 Based on 433 Isolates and 78 Complete Genome Sequences.

UNLABELLED: Human papillomavirus 11 (HPV11) is an etiological agent of anogenital warts and laryngeal papillomas and is included in the 4-valent and 9-valent prophylactic HPV vaccines. We established the largest collection of globally circulating HPV11 isolates to date and examined the genomic diversity of 433 isolates and 78 complete genomes (CGs) from six continents. The genomic variation within the 2,800-bp E5a-E5b-L1-upstream regulatory region was initially studied in 181/207 (87.4%) HPV11 isolates collected for this study. Of these, the CGs of 30 HPV11 variants containing unique single nucleotide polymorphisms (SNPs), indels (insertions or deletions), or amino acid changes were fully sequenced. A maximum likelihood tree based on the global alignment of 78 HPV11 CGs (30 CGs from our study and 48 CGs from GenBank) revealed two HPV11 lineages (lineages A and B) and four sublineages (sublineages A1, A2, A3, and A4). HPV11 (sub)lineage-specific SNPs within the CG were identified, as well as the 208-bp representative region for CG-based phylogenetic clustering within the partial E2 open reading frame and noncoding region 2. Globally, sublineage A2 was the most prevalent, followed by sublineages A1, A3, and A4 and lineage B. IMPORTANCE: This collaborative international study defined the global heterogeneity of HPV11 and established the largest collection of globally circulating HPV11 genomic variants to date. Thirty novel complete HPV11 genomes were determined and submitted to the available sequence repositories. Global phylogenetic analysis revealed two HPV11 variant lineages and four sublineages. The HPV11 (sub)lineage-specific SNPs and the representative region identified within the partial genomic region E2/noncoding region 2 (NCR2) will enable the simpler identification and comparison of HPV11 variants worldwide. This study provides an important knowledge base for HPV11 for future studies in HPV epidemiology, evolution, pathogenicity, prevention, and molecular assay development.

Global genomic diversity of human papillomavirus 6 based on 724 isolates and 190 complete genome sequences.

UNLABELLED: Human papillomavirus type 6 (HPV6) is the major etiological agent of anogenital warts and laryngeal papillomas and has been included in both the quadrivalent and nonavalent prophylactic HPV vaccines. This study investigated the global genomic diversity of HPV6, using 724 isolates and 190 complete genomes from six continents, and the association of HPV6 genomic variants with geographical location, anatomical site of infection/disease, and gender. Initially, a 2,800-bp E5a-E5b-L1-LCR fragment was sequenced from 492/530 (92.8%) HPV6-positive samples collected for this study. Among them, 130 exhibited at least one single nucleotide polymorphism (SNP), indel, or amino acid change in the E5a-E5b-L1-LCR fragment and were sequenced in full. A global alignment and maximum likelihood tree of 190 complete HPV6 genomes (130 fully sequenced in this study and 60 obtained from sequence repositories) revealed two variant lineages, A and B, and five B sublineages: B1, B2, B3, B4, and B5. HPV6 (sub)lineage-specific SNPs and a 960-bp representative region for whole-genome-based phylogenetic clustering within the L2 open reading frame were identified. Multivariate logistic regression analysis revealed that lineage B predominated globally. Sublineage B3 was more common in Africa and North and South America, and lineage A was more common in Asia. Sublineages B1 and B3 were associated with anogenital infections, indicating a potential lesion-specific predilection of some HPV6 sublineages. Females had higher odds for infection with sublineage B3 than males. In conclusion, a global HPV6 phylogenetic analysis revealed the existence of two variant lineages and five sublineages, showing some degree of ethnogeographic, gender, and/or disease predilection in their distribution. IMPORTANCE: This study established the largest database of globally circulating HPV6 genomic variants and contributed a total of 130 new, complete HPV6 genome sequences to available sequence repositories. Two HPV6 variant lineages and five sublineages were identified and showed some degree of association with geographical location, anatomical site of infection/disease, and/or gender. We additionally identified several HPV6 lineage- and sublineage-specific SNPs to facilitate the identification of HPV6 variants and determined a representative region within the L2 gene that is suitable for HPV6 whole-genome-based phylogenetic analysis. This study complements and significantly expands the current knowledge of HPV6 genetic diversity and forms a comprehensive basis for future epidemiological, evolutionary, functional, pathogenicity, vaccination, and molecular assay development studies.

Human papillomavirus type 7-associated condyloma.

Human papillomavirus type 7 (HPV-7) was originally identified in common warts of butchers. It has remained unclear, however, whether HPV-7 also induces other distinct types of cutaneous lesions. We observed similar keratoses on the groins of 2 patients. The lesions presented as multiple, smooth and small with little change in color from that of the adjacent skin and were diagnosed as condylomas. Their histological features were acanthosis, papillomatosis and parakeratosis with hyperkeratotic perinuclear vacuolation in the granular layer. By Southern blot analysis, HPV-7 DNA was identified in both condylomas. We conclude that HPV-7 infection causes condyloma. In addition, we discuss the long-held dogma regarding the association of HPV-7 with butcher's warts and highlight the potential need for clinicians to know causal HPV types in cutaneous lesions given the increased use of prophylactic HPV vaccines.

Detection of human papillomavirus type 58 in polydactylous Bowen's disease on the fingers and toes of a woman - concurrent occurrence of invasive vulval and cervical carcinomas.

The group related to human papillomavirus (HPV) type 16 (HPV-16, -31, -33, -35, -52, -58 and -67) is dominantly identified in cervical intraepithelial neoplasia and cervical carcinomas. HPV-16 has also been frequently detected in Bowen's disease on the hands and feet. We describe herein a case of polydactylous Bowen's disease on the fingers and toes of a woman who had had radical vulvectomy and hysterectomy for concomitant invasive vulval and cervical carcinomas. All the lesions, except for the lesions on the periungual side of her left index, middle and ring fingers, harbored HPV-58 DNA with more than 100 entire viral genome copies per cell detected by Southern blot hybridization. The histological localization of the viral DNA was confirmed in all the lesions by in situ hybridization. We could also retrospectively demonstrate HPV-58 DNA in her invasive vulval and cervical carcinoma tissues.

Codetection of a mixed population of candHPV62 containing wild-type and disrupted E1 open-reading frame in a 45-year-old woman with normal cytology.

We have cloned, sequenced, and characterized the complete genome of a novel human papillomavirus (HPV), candHPV62. During cloning, 2 candHPV62 viral isolates were recovered from a single cervical sample; 1 had all anticipated HPV open-reading frames (ORFs) intact, whereas the other exhibited an E1 frame-shift mutation. Further experiments indicated that the 2 strains were equivalent in abundance. It appears that an early mutation occurred within the E1 ORF, which was transcomplemented by an intact E1 protein. A search of the HPV database identified disruption of the E1 ORF in the cloned reference isolates of HPV16, HPV53, HPV56, and HPV72. These data suggest that disruption of the E1 ORF in genital HPVs is not uncommon.

Human papillomavirus genomes in squamous cell carcinomas of the uterine cervix.

The association between invasive cervical carcinoma and human papillomavirus (HPV) has now been established beyond doubt, but this is not necessarily a direct-and-effect association. To assess the causality of HPV, we analyzed HPV genomes in squamous cell carcinomas (SCCs) [corrected] of the uterine cervix by both blot hybridization and PCR. Genital HPV sequences were found in 231 (79%) of 294 SCCs by blot hybridization with more than five copies of entire HPV genomes identified in some cases including HPV 16 (92 cases), HPV 58 (32 cases), and HPV 52 (24 cases). By PCR-direct sequence analysis in 250 of 294 SCCs, genital HPV sequences were found in 240 samples (96%). The partial L1 sequences of HPV 16 were identified in 123 cases, and those of HPVs 18 and 31 were found in 24 and 20 cases, respectively. In addition, multiple HPV types were identified in 29 (12%) of 250 SCCs, and the HPV copy number, detected by PCR only, was less than 0.05. Marked discrepancies were therefore evident between the two analytical techniques. In this report, we discuss the causality of HPV for SCC with regard to the length of the viral genome, the amount of viral DNA, and multiple HPVs in single SCCs.