Julia Vega1, José Bonomi-Barufi2, Juan Luis Gómez-Pinchetti3, Félix L Figueroa1. 1. Institute of Blue Biotechnology and Development (IBYDA), Ecology Department, Campus Universitario de Teatinos s/n, University of Malaga, 29071 Malaga, Spain. 2. Botany Department, Campus of Trindade, Florianópolis, Federal University of Santa Catarina, Santa Catarina 88040-970, Brazil. 3. Banco Español de Algas (BEA), Institute of Oceanography and Global Change (IOCAG), University of Las Palmas de G.C., Muelle de Taliarte s/n, 35214 Telde, Spain.
Abstract
In recent years, research on natural products has gained considerable attention, particularly in the cosmetic industry, which is looking for new bio-active and biodegradable molecules. In this study, cosmetic properties of cyanobacteria and red macroalgae were analyzed. The extractions were conducted in different solvents (water, ethanol and two combinations of water:ethanol). The main molecules with antioxidant and photoprotective capacity were mycosporine-like amino acids (MAAs), scytonemin and phenolic compounds. The highest contents of scytonemin (only present in cyanobacteria) were observed in Scytonema sp. (BEA 1603B) and Lyngbya sp. (BEA 1328B). The highest concentrations of MAAs were found in the red macroalgae Porphyra umbilicalis, Gelidium corneum and Osmundea pinnatifida and in the cyanobacterium Lyngbya sp. Scytonema sp. was the unique species that presented an MAA with maximum absorption in the UV-B band, being identified as mycosporine-glutaminol for the first time in this species. The highest content of polyphenols was observed in Scytonema sp. and P. umbilicalis. Water was the best extraction solvent for MAAs and phenols, whereas scytonemin was better extracted in a less polar solvent such as ethanol:dH2O (4:1). Cyanobacterium extracts presented higher antioxidant activity than those of red macroalgae. Positive correlations of antioxidant activity with different molecules, especially polyphenols, biliproteins and MAAs, were observed. Hydroethanolic extracts of some species incorporated in creams showed an increase in the photoprotection capacity in comparison with the base cream. Extracts of these organisms could be used as natural photoprotectors improving the diversity of sunscreens. The combination of different extracts enriched in scytonemin and MAAs could be useful to design broad-band natural UV-screen cosmeceutical products.
In recent years, research on natural products has gained considerable attention, particularly in the cosmetic industry, which is looking for nen class="Chemical">w bio-active and biodegradable molecules. In this study, cosmetic properties of cyanobacteria and red macroalgaewere analyzed. The extractions were conducted in different solvents (water, ethanol and two combinations of water:ethanol). The main molecules with antioxidant and photoprotective capacity were mycosporine-like amino acids (MAAs), scytonemin and phenolic compounds. The highest contents of scytonemin (only present in cyanobacteria) were observed in Scytonema sp. (BEA 1603B) and Lyngbya sp. (BEA 1328B). The highest concentrations of MAAswere found in the red macroalgaePorphyra umbilicalis, Gelidium corneum and Osmundea pinnatifida and in the cyanobacteriumLyngbya sp. Scytonema sp. was the unique species that presented an MAAwith maximum absorption in the UV-B band, being identified as mycosporine-glutaminol for the first time in this species. The highest content of polyphenolswas observed in Scytonema sp. and P. umbilicalis. Waterwas the best extraction solvent for MAAs and phenols, whereas scytoneminwas better extracted in a less polar solvent such as ethanol:dH2O (4:1). Cyanobacterium extracts presented higher antioxidant activity than those of red macroalgae. Positive correlations of antioxidant activity with different molecules, especially polyphenols, biliproteins and MAAs, were observed. Hydroethanolic extracts of some species incorporated in creams showed an increase in the photoprotection capacity in comparison with the base cream. Extracts of these organisms could be used as natural photoprotectors improving the diversity of sunscreens. The combination of different extracts enriched in scytonemin and MAAs could be useful to design broad-band natural UV-screen cosmeceutical products.
Authors: Sanjiv K Mishra; William I Suh; Wasif Farooq; Myounghoon Moon; Anupama Shrivastav; Min S Park; Ji-Won Yang Journal: Bioresour Technol Date: 2013-12-27 Impact factor: 9.642
Authors: D G Mercurio; T A L Wagemaker; V M Alves; C G Benevenuto; L R Gaspar; P M B G Maia Campos Journal: J Photochem Photobiol B Date: 2015-09-16 Impact factor: 6.252