AI Article Synopsis
- Ultraviolet radiation damages skin and can cause aging, prompting the use of sunscreens, which often contain harmful synthetic agents.
- A new microplate method using a genetically modified E. coli biosensor allows for easy screening of UV protective substances while assessing their genotoxicity at the same time.
- Natural substances like pine needle extract show promise as effective and non-genotoxic alternatives to traditional sunscreen ingredients, providing similar protective effects against UV radiation.
Article Abstract
Ultraviolet radiation (UV-R) causes genotoxic and aging effects on skin, and sunscreens are used to alleviate the damage. However, sunscreens contain synthetic shielding agents that can cause harmful effects in the environment. Nature-derived substances may have potential as replacement materials for the harmful sunscreen chemicals. However, screening of a broad range of samples is tedious, and often requires a separate genotoxicity assessment. We describe a simple microplate technique for the screening of UV protective substances using a recombinant Escherichia coli biosensor. Both absorbance-based and bioactivity-based shields can be detected with simultaneous information about the sample genotoxicity. With this technique, a controversial sunscreen compound, oxybenzone offers physical or absorbance-based shield but appears genotoxic at higher concentrations (3.3 mg/mL). We also demonstrate that pine needle extract (Pi ) shields the biosensor from UV-R in a dose-dependent manner without showing genotoxicity. The physical shield of 5 mg/mL Pi was similar to that of one of the most common UV-shielding compound TiO concentration 0.80 mg/mL. The bioactivity-based shield of Pi also reaches the extent of the physical shield with the highest concentration (3.3 mg/mL). We conclude that our technique is suitable in detecting the UV-shielding potential of natural substances, and gives simultaneous information on genotoxicity.
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