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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
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- Ceder, R (författare)
- Karolinska Institutet
- Merne, M (författare)
- Staab, CA (författare)
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- Nilsson, JA (författare)
- Dressler, D (författare)
- Engelhart, K (författare)
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- (creator_code:org_t)
- 2019-04-09
- 2007
- Engelska.
- Ingår i: Alternatives to laboratory animals : ATLA. - : SAGE Publications. - 0261-1929 .- 2632-3559. ; 35:6, s. 621-639
- Tidskriftsartikel (refereegranskat)
Abstract
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- 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. Genomic expression, and enzymatic and functional data from the cell lines reflected many aspects of the transition of normal tissue epithelium, via dysplasia, to full malignancy. The composite cell line model develops aberrances in proliferation, terminal differentiation and apoptosis, in a similar manner to oral cancer progression in vivo. Transcript and protein profiling links aberrations in multiple gene ontologies, molecular networks and tumour biomarker genes (some proposed previously, and some new) in oral carcinoma development. Typical specific changes include the loss of tumour-suppressor p53 function and of sensitivity to retinoids. Environmental agents associated with the aetiology of oral cancer differ in their requirements for metabolic activation, and cause toxic effects to cells in both the normal and the transformed states. The results suggest that the model might be useful for studies on the sensitivity of cells to chemicals at different stages of cancer progression, including many aspects of the integrated roles of cytotoxicity and genotoxicity. Overall, the properties of the SVpgC2a and SqCC/Y1 cell lines, relative to normal epithelial cells in monolayer or organotypic culture, support their potential applicability to mechanistic studies on cancer risk factors, including, in particular, the definition of critical toxicity effects and dose–effect relationships.
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- Ceder, R
- Merne, M
- Staab, CA
- Nilsson, JA
- Hoog, JO
- Dressler, D
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- Engelhart, K
- Grafstrom, RC
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- Karolinska Institutet
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