Plant Small RNAs: A New Technology for Skin Care.

This study was performed on an aqueous extract of baobab seedcake enriched in small ribonucleic acids (RNAs) for cosmetic use. The seedcake is a by-product, obtained from Baobab seeds belonging to the Adansonia digitata species. A particular patented extraction process, named plant small RNA (PSR) technology, has been developed to retain some specific nutrient compounds, including small RNAs. Small RNAs, such as microRNAs (miRNAs), play an essential role in gene regulation. The biological potential of this new patented PSR extract was studied in skin fibroblasts and in ex vivo skin. To demonstrate the effect relative to the presence of small RNAs, the same extract in which small RNAs were removed was also tested. After observing the efficacy of PSR extract on collagen expression in ex vivo skin, different markers of senescence were investigated on fibroblasts aged by replicative senescence. The study of the expression of Drosha, an enzyme responsible for miRNA maturation, the expression of miRNA-19b, a biomarker of cellular aging, and the activity of senescence-associated ß-galactosidase showed more efficient activity of PSR extract, compared with small RNAs-free extract. Taken together, these studies demonstrate the potential of PSR extract for use in cosmetic end use applications.

Modulating the expression of survivin and other basal epidermal proteins protects human skin from UVB damage and oxidative stress.

BACKGROUND: The chromosomal passenger complex (CPC) is an assembly made of four interacting proteins: survivin, borealin, INCENP, and aurora kinase B. CPC is the key regulatory complex responsible for the correct development of cellular mitosis, accompanying each step of the chromosomal segregation. This control of mitosis is particularly important in undifferentiated cells that must renew themselves and also further differentiate and specialize. The epidermis is a self-renewing tissue that needs to continuously generate new cells through proliferation and differentiation of progenitor cells. Both the mitosis supervision by the CPC and a correct extracellular environment are physiologically required for the homeostasis of the adult keratinocyte stem cells (KSCs) of the epidermis. KSCs are mainly found in the basal layer of the epidermis and are responsible for the replenishment and maintenance of the tissue, by compensating for the loss of terminally differentiated cells called corneocytes, especially during aging. AIM: The aim of our study was to investigate the implication of survivin in epidermal renewal and the relationships between survivin expression and UVB-induced DNA damage levels in cultured human keratinocytes and in skin biopsies. In parallel, the effects of a treatment by compound IV08.009 were studied. MATERIAL AND METHODS: Cultured human keratinocytes and skin biopsies were used in this study. KSCs-enriched fractions of keratinocytes were isolated from total keratinocytes by differential attachment to a type IV collagen matrix. Survivin expression levels were assessed by immunoblotting in cultured keratinocytes, and α6-integrin, ß1-integrin, keratin 15, and survivin were observed after immunodetection in skin biopsies cross sections. Comet assay, immunodetection of CPDs and of cleaved-caspase 3, and electron microscopy were used to characterize UVB-induced DNA damage. RESULTS: We demonstrated the ability of compound IV08.009 to efficiently protect ex vivo skin against basal UVB-induced damage. Moreover, comet assay studies demonstrated the efficacy of IV08.009 in protecting DNA damage from UVB stress. We found that IV08.009 protects skin from apoptosis induced by oxidative stress, ex vivo. Electron microscopy confirmed the protective efficiency of IV08.009 on cell ultrastructural damage induced by UVB exposure. CONCLUSION: Compound IV08.009 demonstrated to be effective in regulating survivin expression and in preserving the basal epidermis from stresses such as UVB and H2 O2 . These results suggest a protective activity of IV08.009 on the essential renewing potential of KSCs.