核测量和尿液测量显示防晒因子50+防晒霜在现实生活娱乐暴露中对DNA照片产物的有效性

Thierry Douki , Sylvain Caillat , Daniel Bacqueville , Camille Géniès , Celine Huyghe , Hélène Duplan , Jimmy Le Digabel , Christophe Lauze , Jerome Filiol , Razvan Marinescu , Karine Bouyer , Emmanuel Questel , Gwendal Josse
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摘要

防晒霜已被证明可以在实验室条件下保护人体皮肤免受紫外线诱导的DNA损伤。目前,我们将这些观察结果扩展到志愿者在暑假期间养成普通暴露习惯后的现实生活中。志愿者被随机分配到一个对照组和一个接受过SPF≥50防晒霜的教育组,并接受使用说明。调查问卷用于确定接触程度。两组的平均太阳紫外线照射量没有差异。据我们所知,DNA光保护首先是通过一种以前未报道的非侵入性测定法来评估的,该测定法基于尿液中DNA修复释放的嘧啶二聚体的定量。从娱乐性暴露后收集的抽吸水泡顶部提取的核DNA中也对损伤进行了定量。对照组的尿光产物浓度明显高于受教育组。对于来自吸泡的DNA中的光产物水平,观察到了相同的趋势。防晒霜在现实生活条件下对DNA损伤的有效光保护作用的明确观察为防晒霜的效率提供了有力的支持。此外,该结果验证了尿DNA光产物作为一种适用于光保护的非侵入性测定的使用。
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Nuclear and Urinary Measurements Show the Efficacy of Sun-Protection Factor 50+ Sunscreen against DNA Photoproducts upon Real-Life Recreational Exposure

Sunscreens have been shown to protect against UVR-induced DNA damage in human skin under laboratory conditions. We presently extended these observations to real-life conditions in volunteers after their ordinary exposure habits during summer holidays. Volunteers were randomly assigned to a control group and an educated group supplied with a SPF ≥50 sunscreen and receiving instructions for use. A questionnaire was used to determine the extent of exposure. No difference in average solar UVR exposure was found between the two groups. DNA photoprotection was first assessed by, to our knowledge, a previously unreported noninvasive assay on the basis of the quantification of pyrimidine dimers released by DNA repair in urine. Damage was also quantified in the nuclear DNA extracted from the roof of suction blisters collected after recreational exposure. The urinary concentration of photoproducts was significantly higher in the control than in the educated group. The same trend was observed for the level of photoproducts in the DNA from suction blisters. The unambiguous observation of an efficient photoprotection against DNA damage afforded by sunscreen under real-life conditions provides strong support for the efficiency of the sunscreens. In addition, the results validate the use of urinary DNA photoproducts as a noninvasive assay applicable to photoprotection.

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