4.3 Article

Studying the effects of suberythemal UV doses on the human stratum corneum by in vivo confocal Raman spectroscopy

Journal

EUROPEAN JOURNAL OF DERMATOLOGY
Volume 32, Issue 3, Pages 338-346

Publisher

JOHN LIBBEY EUROTEXT LTD
DOI: 10.1684/ejd.2021.4134

Keywords

in vivo Raman; stratum corneum; UV radiation; skin lipid; water mobility; proteins secondary structure

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The study found that UVA and UVB irradiation have an impact on the molecular structure, organization, and barrier function of the stratum corneum, resulting in changes in lipid bilayer organizational order, water content increase, and alterations in protein secondary structure. A UVB dose of 15 mJ/cm(2) was apparently below the threshold for significant changes, despite observed trends.
Background The stratum corneum (SC) plays an important role in skin barrier function. it acts as a protective barrier against water loss, eliminates foreign substances and micro-organisms and acts against harmful effects of UVR. Objectives Our aim was to study the impact of suberythemal doses of UVA and UVB exposure on the molecular structure, organization and barrier function of the SC by following different Raman descriptors. Materials & Methods Twenty female volunteers, aged 20-30 years, with healthy skin were enrolled. Doses of 95 mJ/cm(2) UVA and 15 mJ/cm(2) UVB were applied to volunteers' forearms. In vivo Raman measurements were performed at irradiated and control regions. Results The impact of UVA and UVB irradiation was observed following several Raman descriptors, i.e. the ratio of v(asym)CH(2)/v(sym)CH(2) (2885 cm(-1)/2850 cm(-1)) corresponding to the organizational order of the lipid bilayer. Water content and mobility descriptors were obtained by calculating vOH/vCH ratio. Finally, protein secondary structure was evaluated based on the 1670 cm(-1)/1650 cm(-1) ratio related to beta sheets and alpha helices, respectively. Conclusion UVA induced a loosening of the lateral packing of lipids immediately after irradiation. in contrast, delayed impact caused a tightening of the lipid barrier, an increase in water content -mainly in the unbound water fraction and a higher relative amount of beta sheets in SC proteins. Overall, these observations may explain the thickening of the SC observed in previous studies. A UVB dose of 15 mJ/cm(2) was apparently below the threshold necessary to induce significant changes despite the trends observed in this study.

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