Abstract
E7 protein from cutaneous as well as mucosal HPV types can alter NF-κB activity. Conflicting literature data show a HPV-induced up- or down-regulation of the NF-κB pathway in different cell lines. In a previous study we detected the expression of E7 gene of HPV15 in a subungual tumor of a patient affected by incontinentia pigmenti (IP). IP is a rare X-linked genodermatosis in which the IKKγ gene is altered. From observations in transgenic IKKγ defective mice, it was suggested that IKK-deficient cells may undergo rapid hyper-proliferation and apoptosis/necrosis, leading to increased pro-inflammatory cytokine production in the neighboring IKK-positive cells. The objective of this study was to ascertain if beta HPV 15 can alter apoptosis and NF-κB pathway in normal and IKKγ-deficient keratinocytes. The human immortalized keratinocyte cell line (HaCaT), and human primary keratinocyte (HPK) cells were transduced with a retrovirus expressing E6–E7 proteins of HPV 15 and IKKγ was successful silenced mimicking the HPV15 infection and IP. HPV15 E6–E7 gene expression improved NF-κB activity in human keratinocytes even when IKKγ was silenced by siRNA. In IKKγ silenced keratinocyte cells, TNF-α-induced apoptosis was strongly reduced by the expression of HPV15 E6–E7 genes. Beta HPV15 exerted this anti-apoptotic activity by decreasing pro-apoptotic BAK and cleaved Caspase 3 proteins. In conclusion, we can speculate that presence of persistent infection by beta papillomavirus might influence the biological fate of IP by altering NF-κB activation and apoptosis in IKKγ mutated cells, favoring their survival and possibly the development of tumors in the late stage of disease. Taken together, our data reinforce the importance of host genetic background in the pathogenesis of HPV-associated skin lesions.
Highlights
Human papillomaviruses (HPV) are double stranded DNA viruses which include types that infect human mucosa and those that are present in cutaneous sites
It was reported that HPV 15 can alter morphology of keratinocytes organotypic culture and it was found in basal cell carcinoma (BCC) in association with p16INK4a positivity
In vitro and in vivo experimental models of Beta papillomavirus biology have underlined the properties of E6 and E7 from several Beta HPV types in deregulating fundamental cellular events intimately linked to transformation, such as cell cycle progression, apoptosis, differentiation, and DNA repair (Howley and Pfister, 2015; Tommasino, 2017)
Summary
Human papillomaviruses (HPV) are double stranded DNA viruses which include types that infect human mucosa and those that are present in cutaneous sites. Beta papillomaviruses can exert their oncogenic activity when other factors are acting favoring cutaneous squamous cell carcinoma (SCC) development, i.e., genetic disorders as in epidermodysplasia verruciformis (EV), immunosuppression as in transplant patients, or UV induced DNA damage. Viral load analysis in SCC specimens of non-EV patients revealed that not all cancer cells contain a copy of the Beta HPV genome (Weissenborn et al, 2005). These data imply that Beta HPV types may act at an early stage of skin carcinogenesis and, after a full establishment of the cancer phenotype, viral DNA may not be required any longer and may be rapidly lost (Tommasino, 2017). An increased activity was reported for HPV38 (Hussain et al, 2011) as well as for high risk alpha papillomavirus (Vandermark et al, 2012) whereas a reduced activity was showed for other Beta HPV (Byg et al, 2012)
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