Objective: Exposure to certain stresses in small doses might lead to a protective effect by improving resistance to other stressors. Dead Sea (DS) minerals can be a relevant source to induce positive stress due to the...Objective: Exposure to certain stresses in small doses might lead to a protective effect by improving resistance to other stressors. Dead Sea (DS) minerals can be a relevant source to induce positive stress due to their high salinity and unique mineral combination. This concept could be further optimized using advanced unique cell biotechnology. The purpose of this study was to elucidate the innovative concept of DS minerals (water extract and black mud) supplementation in small amount to Pichia pastoris yeast growth media as a positive stress by testing the capability of accepted fermentation compounds to affect the appearance of skin. Methods: Skin equivalents were topically applied with different Pichia pastoris fermentations (Metabiotics?). Skin elasticity biomarkers were tested, since loss of elasticity and suppleness is a natural skin aging process leading to deeper wrinkles and loss of firmness. A preliminary screening at the gene level using DNA microarray was performed and subsequently, the following proteins were detected using ELISA or immunoblotting assays: elastin, fibulin-1, lysyl oxidase (LOX), metalloproteinase 3 (MMP-3), E-cadherin, claudin 4, tight junction protein (TJP)-1 and TJP-2. UVB irradiation was selected as a stressor. Results: Fermentation compounds generated in the presence of small doses of DS minerals affected the expression of various elasticity-related genes in skin. Moreover, they significantly attenuated the abnormal UVB-induced alterations, the proteins elastin, fibulin-1, LOX, MMP-3, E-cadherin and TJP-2. Conclusions: The observations clearly demonstrate that when DS Metabiotics? compounds are topically applied, significant alterations in several biomarkers that contribute to skin elasticity occur. Thus, these novel compounds have the potential to serve as skincare actives.展开更多
Background: Exposure to solar UV rays has deleterious effects on skin appearance through physiological and structural alterations that eventually lead to skin photo-damage. Aims: To test the photo-protective effect of...Background: Exposure to solar UV rays has deleterious effects on skin appearance through physiological and structural alterations that eventually lead to skin photo-damage. Aims: To test the photo-protective effect of a novel preparation, Dead Sea Osmoter Concentrate (DSOC), containing high concentration of Dead Sea water. Methods: Human skin organ culture was used as a model to assess the biological effects of UVB irradiation and the protective effect of topical application of DSOC preparation. Skin pieces were analyzed for mitochondrial activity by Alamar blue (resazurin) assay, for apoptosis by caspase 3 assay, for detoxification by proteasome 20S sub-unit activity and for skin hydration by aquaporin 3 (AQP3) membrane channels expression. Human subjects were tested to evaluate the effect of DSOC Serum, a topical formula for facial skin, on skin hydration by a corneometer. Results: UVB irradiation induced cell apoptosis in the epidermis of skin organ cultures and decreased their proteasome activity and AQP3 expression. Topical application of DSOC significantly attenuated all these effects. In human subjects, an elevation in the intense skin moisture, which was higher relatively to subjects’ regular moisturizer, was observed. Moreover, DSOC Serum boosted the hydration effect together with regular moisturizer. Conclusions: The results clearly demonstrate that DSOC preparation can significantly improve the skin capability in coping with UVB rays stress in different cellular functions such as anti-apoptotic properties as well as detoxification and hydration recovery that can attenuate biological effects of skin photo-damage. Topical application of DSOC Serum had contributed to skin appearance by a strong hydration impact, also as a booster.展开更多
文摘Objective: Exposure to certain stresses in small doses might lead to a protective effect by improving resistance to other stressors. Dead Sea (DS) minerals can be a relevant source to induce positive stress due to their high salinity and unique mineral combination. This concept could be further optimized using advanced unique cell biotechnology. The purpose of this study was to elucidate the innovative concept of DS minerals (water extract and black mud) supplementation in small amount to Pichia pastoris yeast growth media as a positive stress by testing the capability of accepted fermentation compounds to affect the appearance of skin. Methods: Skin equivalents were topically applied with different Pichia pastoris fermentations (Metabiotics?). Skin elasticity biomarkers were tested, since loss of elasticity and suppleness is a natural skin aging process leading to deeper wrinkles and loss of firmness. A preliminary screening at the gene level using DNA microarray was performed and subsequently, the following proteins were detected using ELISA or immunoblotting assays: elastin, fibulin-1, lysyl oxidase (LOX), metalloproteinase 3 (MMP-3), E-cadherin, claudin 4, tight junction protein (TJP)-1 and TJP-2. UVB irradiation was selected as a stressor. Results: Fermentation compounds generated in the presence of small doses of DS minerals affected the expression of various elasticity-related genes in skin. Moreover, they significantly attenuated the abnormal UVB-induced alterations, the proteins elastin, fibulin-1, LOX, MMP-3, E-cadherin and TJP-2. Conclusions: The observations clearly demonstrate that when DS Metabiotics? compounds are topically applied, significant alterations in several biomarkers that contribute to skin elasticity occur. Thus, these novel compounds have the potential to serve as skincare actives.
文摘Background: Exposure to solar UV rays has deleterious effects on skin appearance through physiological and structural alterations that eventually lead to skin photo-damage. Aims: To test the photo-protective effect of a novel preparation, Dead Sea Osmoter Concentrate (DSOC), containing high concentration of Dead Sea water. Methods: Human skin organ culture was used as a model to assess the biological effects of UVB irradiation and the protective effect of topical application of DSOC preparation. Skin pieces were analyzed for mitochondrial activity by Alamar blue (resazurin) assay, for apoptosis by caspase 3 assay, for detoxification by proteasome 20S sub-unit activity and for skin hydration by aquaporin 3 (AQP3) membrane channels expression. Human subjects were tested to evaluate the effect of DSOC Serum, a topical formula for facial skin, on skin hydration by a corneometer. Results: UVB irradiation induced cell apoptosis in the epidermis of skin organ cultures and decreased their proteasome activity and AQP3 expression. Topical application of DSOC significantly attenuated all these effects. In human subjects, an elevation in the intense skin moisture, which was higher relatively to subjects’ regular moisturizer, was observed. Moreover, DSOC Serum boosted the hydration effect together with regular moisturizer. Conclusions: The results clearly demonstrate that DSOC preparation can significantly improve the skin capability in coping with UVB rays stress in different cellular functions such as anti-apoptotic properties as well as detoxification and hydration recovery that can attenuate biological effects of skin photo-damage. Topical application of DSOC Serum had contributed to skin appearance by a strong hydration impact, also as a booster.
