ABSTRACT
BACKGROUND: The structured expression of several keratins in the skin is associated with differentiation status of the epidermal layers, whereas others are upregulated only during wound healing, in skin disorders and in cancers. One of these stress keratins, K17, is correlated with poor prognosis in various cancer types and its loss has been shown to decelerate tumour growth. K17 expression can also be detected in cutaneous squamous cell carcinomas (SCCs), where UV-irradiation and infection with cutaneous human papillomaviruses (HPVs) are important co-factors. It was previously reported that K17 is upregulated in papillomavirus (PV)-induced benign skin lesions in mice and induces an immunological status that is beneficial for tumour growth. OBJECTIVES: In order to investigate whether K17 upregulation is induced by PVs, we analysed K17 levels in skin tumour specimens of different animal models and humans. METHODS: Various immunofluorescence stainings were performed to identify K17 expression as well as levels of E-Cadherin, vimentin and CD271. Tissues were further analysed by PCRs, qPCRs and ELISA to control for PV activity. K17knockdown cells were generated and effects on viral life cycle were investigated by infection assays, qPCR and Western blotting. RESULTS: We could show that K17 is commonly expressed in skin tumours and that its presence is not directly linked to viral oncoprotein expression. Rather, K17 expression seems to be a marker of epithelial differentiation and its absence in tumour tissue is associated with an epithelial-to-mesenchymal transition. We further showed that the absence of K17 in skin tumours increases markers of cancer stem-like cells and negatively affects viral protein synthesis. CONCLUSIONS: Collectively, our data indicate that K17 expression is a common feature in skin tumourigenesis. While it is not primarily targeted by PV oncoproteins, our in vivo and in vitro data suggest that it is an important regulator of epithelial differentiation and thus may play a role in controlling viral protein synthesis.
ABSTRACT
Despite epidermal turnover, the skin is host to a complex array of microbes, including viruses, such as HPV, which must infect and manipulate skin keratinocyte stem cells (KSCs) to survive. This crosstalk between the virome and KSC populations remains largely unknown. Here, we investigated the effect of HPV8 on KSCs using various mouse models. We observed that the HPV8 early region gene E6 specifically caused Lrig1+ hair follicle junctional zone KSC proliferation and expansion, which would facilitate viral transmission. Within Lrig1+ KSCs specifically, HPV8 E6 bound intracellular p300 to phosphorylate the STAT3 transcriptional regulatory node. This induced ΔNp63 expression, resulting in KSC expansion into the overlying epidermis. HPV8 was associated with 70% of human actinic keratoses. Together, these results define the "hit-and-run" mechanism for HPV8 in human actinic keratosis as an expansion of KSCs, which lack melanosome protection and are thus susceptible to sun light-induced malignant transformation.