Abstract
Background: Folic acid (FA), also known as vitamin B9, functions as a co-factor in many cellular processes. Ultraviolet radiation (UV) has been shown to cause the formation of free radicals, and chronic exposure of the skin to UV radiation has been demonstrated to result in many adverse effects. Skin protection against harmful environmental factors is one of the aims of cosmetic products. One such substance is folic acid. However, aqueous FA solutions decompose after exposure to UV radiation, and the decomposition products can exhibit variable pro/anti-oxidative roles depending on the cell type and its environment. Objectives: The objective of the present study was to demonstrate the effectiveness of folic acid as a UV-protective agent in vitro cell culture model. Methods: The experimental model comprised an in vitro culture of normal human fibroblasts derived from adult skin (NHDF-Ad). Paramagnetic electron resonance (EPR) was used to assess the interaction of folic acid with free radicals after exposure to UV radiation. RT-qPCR was utilized to evaluate the impact of ultraviolet (UV) radiation on the expression of selected cell cycle regulatory genes (CCND1, P53, BAX, and BCL-2) in vitro cultured fibroblasts that were protected by folic acid. Results: EPR studies revealed the antioxidant properties of folic acid. Free radical forms of folic acid are induced during UV irradiation. The strong effect of UV irradiation on interactions of folic acid with free radicals was observed. The interaction was found to be weaker for the irradiated samples. Molecular studies have demonstrated a decline in the BAX/BCL-2 ratio in cells that have been treated with folic acid and exposed to UV radiation in comparison to the BAX/BCL-2 ratio observed in cells that have been exposed exclusively to UV radiation and not treated with folic acid. Conclusions: Whilst molecular and EPR studies both confirm the effectiveness of folic acid as a UV-protective ingredient in cosmetics and pharmaceutical products, further research in this area is required.