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 Printable version |
An in vitro strategy to evaluate the phototoxicity |
European Journal of Dermatology. Volume 8, Number 6, 403-12, September 1998, Revues
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 Free Article
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Author(s) : Laurent MARROT, Jean-Philippe BELAIDI, Cécile CHAUBO, Jean-Roch MEUNIER, Philippe PEREZ, Catherine AGAPAKIS-CAUSSE |
Summary : Skin cancers are among the most common human cancers and have an increasing incidence. The ultraviolet radiation components of sunlight play a major role in skin tumor induction and development. Cellular DNA has been identified as a target for most of the biological effects of UV, and the induction of photodamage is considered as the initiating step of photocarcinogenesis. Thus, effective photoprotection of DNA against harmful overex-posure to solar UV is a critical issue.
The efficiency of a sunscreen is usually tested with respect to its ability to prevent skin erythema, but conceivably, more data are required at the molecular and cellular level in order to ascertain protection against photocarcinogenic risk. In the present study, we define a strategy based on the use of various in vitro models and solar-simulated light to evaluate photodamage and photoprotection:
– Supercoiled circular plasmid DNA for detection of structural alterations.
– The yeast Saccharomyces cerevisiae to evaluate cytotoxicity and genotoxicity.
– The single-cell gel electrophoresis or comet assay to determine DNA damage and DNA repair in human keratinocytes.
– p53 expression as a hallmark for genotoxic stress.
– Induction of pigmentation in human melanocytes.
In conditions where light source, spectrum and control of radiation delivery were precisely defined, we have demonstrated that the wide spectrum UVA sunscreen Mexoryl ® SX protects from the cytotoxicity and genotoxicity of solar UV. |
Keywords : DNA photodamage, phototoxicity, photomutagenesis, photoprotection, p53 protein, UV induced melanogenesis.) |
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