Human papillomavirus (HPV) and associated diseases: between applied diagnostic and basic research

Human Papillomavirus (HPV) is the cause of cervical cancers (among these, adenocarcinoma, AdCa) and is associated to a subgroup of oropharyngeal carcinomas (OPSCCs). Even if the risk for cancer development is linked to the infection by some viral genotypes, mainly HPV16 and 18, viral DNA alone seems not to be sufficient for diagnosis. Moreover, the role of the virus in OPSCCs has not been totally clarified yet. In the first part of the thesis, the performances concerning viral genotyping in clinical cervical samples of a new pyrosequencing-based test and a well-known hybridization-based assay have been compared. Similar results between the methods have been obtained. However, the former showed advantages in detecting intratype variants, higher specificity and a broader spectrum of detectable HPV types. The second part deals with the evaluation of virological markers (genotyping, viral oncoproteins expression, viral load, physical state and CpG methylation of HPV16 genome) in the diagnosis/prognosis of cervical AdCa and HPV-associated OPSCCs. HPV16 has been confirmed the most prevalent genotype in both the populations. Interestingly, the mean methylation frequency of viral DNA at the early promoter showed the tendency to be associated to invasion for cervical AdCa and to a worse prognosis for OPSCCs, suggesting a promising role as diagnostic/prognostic biomarker. The experiments of the third part were performed at the DKFZ in Heidelberg (Germany) and dealt with the analysis of the response to IFN-k transfection in HPV16-positive cervical cancer and head&neck carcinoma cell lines to evaluate its potential role as new treatment. After 24h, we observed increased IFN-b expression which lead to the up-regulation of genes involved in the antigens presentation pathway (MHC class I and immunoproteasome) and antiviral response as well, in particular in cervical cancer cell lines. This fact suggested also the presence of different HPV-mediated carcinogenic pathways between the two anatomical districts.

Molecular analysis of Papillomavirus-induced cutaneous tumors in equids

Papillomavirus associated tumors are well recognized entities in humans as well as in animals. Here is reviewed the current understanding of human papillomavirus (HPV) associated cancers to better understand the oncogenic mechanisms of Equine papillomavirus (EcPV) and Bovine Papillomavirus (BPV) in horses. In the first part of this study the interactions between Equine papillomavirus 2 (EcPV-2) and cell cycle proteins are discussed. EcPV-2 has been recognized as the cause of genital squamous cell carcinomas (SCCs) in horses, but the exact mechanism of carcinogenesis is not fully understood. The aim of the first part of this study is to assess the expression of cell cycle proteins p53, p16, pRB and Cyclin D1 in a series of equine SCCs and papillomas. Results confirm the role of EcPV-2 in the pathogenesis of genital SCCs. Moreover, in a small subset of ocular SCCs, EcPV-2 was detected for the first time. By immunohistochemistry, p53 was mostly expressed in ocular SCCs with a suprabasal localization. Regarding p16, overexpression was associated with increased mitotic index but not with viral infection. Investigation on pRB and Cyclin D1 proteins did not show significant correlation with other variables. The second part of this study is focused on the carcinogenetic mechanisms of BPV in equine sarcoids. The aim of the second part of this study was to characterize the typical histomorphological features of equine sarcoids, assess the expression of cell cycle proteins and Ki-67 proliferation index. Our results confirm that the typical histological features of sarcoids cannot be used to correctly classify the clinical types. Moreover, in a subset of sarcoids low pRB-Cyclin D1 scores were associated with simultaneous high p16 expression. The Ki-67 proliferation index confirm the low proliferative activity of sarcoids, except for tumors displaying a fascicular pattern. Finally, a subset of sarcoids recurred after excision.

Virus oncogeni a dna in tumori umani: studio delle infezioni da papillomavirus e poliomavirus in neoplasie di diversa origine.

I virus tumorali inducono oncogenesi nel loro ospite naturale o in sistemi animali sperimentali, manipolando diverse vie cellulari. Ad oggi, sono stati identificati sette virus capaci di causare specifici tumori umani. Inoltre HPV, JCV ed SV40, sono stati associati con un grande numero di tumori umani in sedi corporee non convenzionali, ma, nonostante molti anni di ricerca, nessuna eziologia virale è stata ancora confermata. Lo scopo di questo studio è stato di valutare la presenza ed il significato sia di JCV ed SV40 in tumori ossei umani, e di HPV nel carcinoma della mammella (BC), galattoforectomie (GF), secrezioni mammarie patologiche (ND) e glioblastoma multiforme (GBM). Tecniche di biologia molecolare sono state impiegate per esaminare campioni di tessuto tumorale di 70 tumori ossei (20 osteosarcomi [OS], 20 tumori a cellule giganti [TCG], 30 condrosarcomi [CS]), 168 BCs , 30 GFs, 59 GBM e 30 campioni di ND. Il genoma di SV40 e JCV è stato trovato nel 70% dei CS + 20% degli OS, e nel 13% dei CS +10% dei TCG, rispettivamente. Il DNA di HPV è stato rilevato nel 30% dei pazienti con BC, nel 27% dei campioni GF e nel 13% dei NDs. HPV16 è stato il genotipo maggiormente osservato in tutti questi campioni, seguito da HPV18 e HPV35. Inoltre, il DNA di HPV è stato trovato nel 22% dei pazienti con GBM, in questo tumore HPV6 era il tipo più frequentemente rilevato, seguito da HPV16. L’ ISH ha mostrato che il DNA di HPV è situato all’interno di cellule tumorali mammarie e di GBM. I nostri risultati suggeriscono un possibile ruolo di JCV, SV40 e HPV in questi tumori, se non come induttori come promotori del processo neoplastico, tuttavia diversi criteri devono ancora essere soddisfatti prima di chiarirne il ruolo.