Janet L. Brandsma scite author profile

Animal papillomaviruses are widely used as models to study papillomavirus infection in humans despite differences in genome organization and tissue tropism. Here, we have investigated the extent to which animal models of papillomavirus infection resemble human disease by comparing the life cycles of 10 different papillomavirus types. Three phases in the life cycles of all viruses were apparent using antibodies that distinguish between early events, the onset of viral genome amplification, and the expression of capsid proteins. The initiation of these phases follows a highly ordered pattern that appears important for the production of virus particles. The viruses examined included canine oral papillomavirus, rabbit oral papillomavirus (ROPV), cottontail rabbit papillomavirus (CRPV), bovine papillomavirus type 1, and human papillomavirus types 1, 2, 11, and 16. Each papillomavirus type showed a distinctive gene expression pattern that could be explained in part by differences in tissue tropism, transmission route, and persistence. As the timing of life cycle events affects the accessibility of viral antigens to the immune system, the ideal model system should resemble human mucosal infection if vaccine design is to be effective. Of the model systems examined here, only ROPV had a tissue tropism and a life cycle organization that resembled those of the human mucosal types. ROPV appears most appropriate for studies of the life cycles of mucosal papillomavirus types and for the development of prophylactic vaccines. The persistence of abortive infections caused by CRPV offers advantages for the development of therapeutic vaccines.

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Association of Papillomavirus With Cancers of the Head and Neck

Brandsma¹,

Abramson²

1989

Archives of Otolaryngology - Head and Neck Surgery

199

104

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\s=b\One hundred one squamous cell carcinomas (SCC) (study group) and 116 tissues without SCC or papilloma from matched anatomic sites (control group) were evaluated for the presence of human papillomavirus (HPV) DNA. Squamous cell carcinomas of the tongue (18%), tonsil (29%), and pharynx (13%) specifically harbored HPV-16\p=n-\related sequences. In contrast, the nose, mouth, and esophagus proved completely negative. In the larynx, a low prevalence of HPV-11/16\p=n-\related DNA was found in both cancers (5%) and control tissues (4%), suggesting that the associations lacked specificity. Our results indicate that anatomic site plays a role in determining the susceptibility to infection, and that the clinical entities with which HPV infections are associated include both subclinical infection with no history of papilloma, and malignant disease. (Arch Otolaryngol Head Neck Surg 1989;115:621-625) The human papillomaviruses (HPVs) comprise a heterogeneous group of more than 50 viral types, each of which generally prefers spe¬ cific epithelial tissues for infection.1 For example, HPV types 6 and 11 are almost exclusively the causative agents of laryngeal papillomas and of

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Distinct human papillomavirus type 16 methylomes in cervical cells at different stages of premalignancy

et al. 2009

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Human papillomavirus (HPV) gene expression is dramatically altered during cervical carcinogenesis. Because dysregulated genes frequently show abnormal patterns of DNA methylation, we hypothesized that comprehensive mapping of the HPV methylomes in cervical samples at different stages of progression would reveal patterns of clinical significance. To test this hypothesis, thirteen HPV16-positive samples were obtained from women undergoing routine cervical cancer screening. Complete methylation data were obtained for 98.7% of the HPV16 CpGs in all samples by bisulfite-sequencing. Most HPV16 CpGs were unmethylated or methylated in only one sample. The other CpGs were methylated at levels ranging from 11% to 100% of the HPV16 copies per sample. The results showed three major patterns and two variants of one pattern. The patterns showed minimal or no methylation (A), low level methylation in the E1 and E6 genes (B), and high level methylation at many CpGs in the E5/L2/L1 region (C). Generally, pattern A was associated with negative cytology, pattern B with low-grade lesions, and pattern C with high-grade lesions. The severity of the cervical lesions was then ranked by the HPV16 DNA methylation patterns and, independently, by the pathologic diagnoses. Statistical analysis of the two rating methods showed highly significant agreement. In conclusion, analysis of the HPV16 DNA methylomes in clinical samples of cervical cells led to the identification of distinct methylation patterns which, after validation in larger studies, could have potential utility as biomarkers of neoplastic cervical progression.

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Janet L. Brandsma

Molecular Classification Identifies a Subset of Human Papillomavirus–Associated Oropharyngeal Cancers With Favorable Prognosis

Life Cycle Heterogeneity in Animal Models of Human Papillomavirus-Associated Disease

Association of Papillomavirus With Cancers of the Head and Neck

Distinct human papillomavirus type 16 methylomes in cervical cells at different stages of premalignancy

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