HIVtat Alters Epithelial Differentiation State and Increases HPV16 Infectivity in Oral Keratinocytes.

Human Papillomavirus (HPV)-associated oral disease has increased during the era of HIV antiretroviral therapy. HPV and HIV proteins may be co-present at mucosal surfaces. Recent published studies have determined that HIVtat is secreted in the saliva and has been detected in oral mucosa even in the context of antiretroviral therapy. We hypothesized that HIVtat promoted oral HPV pathogenesis. Clinical HPV16 cloned episomes were introduced into differentiated oral epithelial cells (OKF6tert1). HIVtat mediated transactivation, DNA damage, oxidative stress, and effects on cellular differentiation were assessed. Detection of keratin 10 and of loricrin confirmed terminal differentiation. Sodium butyrate-treated (NaB) cells demonstrated an eight-fold increase in cross-linked involucrin, suggesting full terminal differentiation. HIVtat modulated this differentiation both in the presence and absence of NaB. Later viral events, including E6* and E1^E4 gene expression were assessed. HIVtat mediated relief of repressed L1 expression that mapped to a known inhibitory region (nucleotides 5561-6820). Viruses from HIVtat co-expressing cells exhibited robust de novo HPV16 infection. In conclusion, a novel oral keratinocyte monolayer system supported replication of an HPV16 clinical isolate where direct HIVtat and oral HPV interactions enhanced HPV de novo infection.