The application of normal, SV40 T-antigen-immortalised and tumour-derived oral keratinocytes, under serum-free conditions, to the study of the probability of cancer progression as a result of environmental exposure to chemicals.

In vitro models are currently not considered to be suitable replacements for animals in experiments to assess the multiple factors that underlie the development of cancer as a result of environmental exposure to chemicals. An evaluation was conducted on the potential use of normal keratinocytes, the SV40 T-antigen-immortalised keratinocyte cell line, SVpgC2a, and the carcinoma cell line, SqCC/Y1, alone and in combination, and under standardised serum-free culture conditions, to study oral cancer progression. In addition, features considered to be central to cancer development as a result of environmental exposure to chemicals, were analysed.

Bioinformatics processing of protein and transcript profiles of normal and transformed cell lines indicates functional impairment of transcriptional regulators in buccal carcinoma.

Normal and two transformed buccal keratinocyte lines were cultured under a standardized condition to explore mechanisms of carcinogenesis and tumor marker expression at transcript and protein levels. An approach combining three bioinformatic programs allowed coupling of abundant proteins and large-scale transcript data to low-abundance transcriptional regulators. The analysis identified previously proposed and suggested novel protein biomarkers, gene ontology categories, molecular networks, and functionally impaired key regulator genes for buccal/oral carcinoma.

Modelling of normal and premalignant oral tissue by using the immortalised cell line, SVpgC2a: a review of the value of the model.

Normal oral keratinocytes (NOKs), and a Simian virus 40 T-antigen-immortalised oral keratinocyte line termed SVpgC2a, were cultured in an effort to model the human oral epithelium in vitro, including normal and dysplastic tissue. Monolayer and organotypic cultures of NOKs and SVpgC2a were successfully established in a standardised serum-free medium with high levels of amino acids, by using regular tissue culture plastic for monolayers and collagen gels containing oral fibroblasts as the base for generating tissue equivalents. NOKs express many characteristics of normal tissue, including those associated with terminal squamous differentiation.