miR‐203 represses keratinocyte stemness by targeting survivin

Abstract Objective The epidermis possesses the capacity to replace dying cells and to heal wounds, thanks to resident stem cells, which have self‐renewal properties. In skin physiology, miRNAs have been shown to be involved in many processes, including skin and hair morphogenesis. Recently, differentiation of epidermal stem cells was shown to be promoted by the miR‐203. The miR‐203 is upregulated during epidermal differentiation and is of interest because of significant targets. Methods By utilizing a bioinformatic tool, we identified a target site for miR‐203 in the survivin mRNA. Silencing miR‐203 was managed with the use of antagomir; the silencing of survivin was performed with a siRNA. Survivin expression was determined by qPCR or immunofluorescence in cultured cells, and by immunohistochemistry in skin sections. Involucrin expression was used as marker of keratinocyte differentiation. A rice extract with previously demonstrated anti‐aging properties was evaluated on miR‐203 modulation. Results In this study, we identified a miR‐203/survivin axis, important for epidermal homeostasis. We report that differentiation of keratinocyte is dependent on the level of miR‐203 expression and that inhibition of miR‐203 can increase the expression of survivin, an epidermal marker of stemness. Conclusion In summary, our findings suggest that miR‐203 target 3′UTR region of survivin mRNA and directly represses survivin expression in the epidermis. The rice extract was identified as modulator of miR‐203 and pointed out as a promising microRNA‐based strategy in treating skin changes occurring with aging.