SummaryLow-dose exposures to common environmental chemicals that are deemed safe individually may be combining to instigate carcinogenesis, thereby contributing to the incidence of cancer. This risk may be overlooked by current regulatory practices and needs to be vigorously investigated.
Cancer statistics report an increased incidence of OSCC and OPSCC around the world. Though improvements in screening and early diagnosis have dramatically reduced the incidence of this neoplasm in recent years, the 5-year-disease-free survival, is still poor, specially for oropharyngeal cancer, despite the great scientific and financial efforts. Recently, several papers showed that HPV may be involved at least in the pathogenesis of a subgroup of oral and cervical SCC, leading to distinct molecular characteristics compared with HPV-negative ones. Nevertheless, OPSCCs associated with HPV infection seem to show a better prognosis and affect younger patients (< 40 yrs.), especially females. Therefore, there is the need to properly assess oropharyngeal SCC subgroups: 1) not HPV associated/classic oral SCC: less responsive to anticancer drugs: needs novel post-surgical treatment; 2) HPV associated/oral SCC: needs several management options and suitable "target" therapy against the virus, and/or immune-stimulating therapy. Further issues are: 1) the disclosure of putative targets for more efficient molecular therapy, which may work as cervical cancer post-surgical treatment, in anticipation of the effects of "global prevention" performed by WHO anti-HPV vaccination programs; 2) careful identification of precancerous lesions in both sites; dysplasia is currently treated by excisional or ablative procedures, which don't consider the concept of field carcinogenesis. In fact, it is probable that near or far from an excised precancerous lesion new foci of cell transformation may exist, which are not yet macroscopically evident, but, if detected, would put the patient into a high risk subgroup.Comparing findings reported in the recent literature, the data of this state of the art about HPV might add useful informations concerning oropharyngeal carcinogenesis. Moreover, our review would be useful in order to define novel perspectives of treatment choice for Head & Neck cancer patients, by combining well known chemotherapeutical drugs with new molecular "target" therapy.
Objective
Subpopulations of highly tumorigenic cells, which have the unique capacity to self-renew and produce differentiated progeny, have been identified in multiple malignancies. In head and neck squamous cell carcinoma (HNSCC), this subpopulation of cells, termed cancer stem cells (CSCs) are contained within the population with high CD44 expression. It has been postulated that CSCs play a role in invasion and metastasis; however, there is little evidence to support this theory. We designed in vitro and in vivo models of metastasis to study the behavior of CSCs in HNSCC.
Design
Cells were sorted for CD44 expression using flow cytometry. Sorted cells were used in an in vitro invasion assay. For in vivo studies, CSCs and non-CSCs were injected into the tail veins of mice, and lungs were either harvested or imaged to evaluate for metastases.
Results
In vitro, CD44high cells were more motile but less invasive than CD44low cells. In vivo, 4/5 mice injected with CD44high cells and 0/5 mice injected with CD44low cells formed lung metastases. Two of the metastases arose from CSCs from a primary tumor and three from CSCs from HNSCC cell lines.
Conclusions
In vitro, CSCs do not have an increased ability to invade through basement membrane, but they do migrate more efficiently through a porous barrier. In contrast, CSCs formed metastases quite efficiently in vivo, whereas non-CSCs did not form metastases at all. This phenomenon could be due to enhanced migratory capacity of CSCs, which may be more important than basement membrane degradation in vivo.
BACKGROUND
Few human papillomavirus (HPV)-positive head and neck squamous cell carcinoma (HNSCC) cell lines exist. We established UM-SCC-104, a new HPV(+) HNSCC cell linefrom a recurrent oral cavity tumor, and characterized it for the presence of cancer stem cells (CSC).
METHODS
Tumor cells were tested for biomarker expression by immunohistology and the presence of HPV was assessed by several methods.
RESULTS
UM-SCC-104 has a unique genotype, contains HPV-16 and expresses E6/E7. Inoculation of (Aldehyde Dehydrogenase) ALDH(+) and ALDH(−) cells in an immunocompromised mouse resulted in tumor growth from the ALDH(+) cells after 6 weeks that recapitulated the histology of the primary, while ALDH(−) cells did not produce tumors.
CONCLUSIONS
UM-SCC-104, a new HPV-16, CSC-containing HNSCC cell line will aid in studying recurrent HPV(+) tumors. The aggressive nature of this tumor is consistent with high uniform expression of EGFR and a functionally significant proportion of ALDH(+) CSC.
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