Bioactivities of natural products for antiaging
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Abstract
Internal factors including stress and ailment, and external factors such as pollution, sunlight and chemicals may affect to increase the production of free radical in the skin. When free radical scavenging in the skin is imbalanced, damaged skin cells may be deteriorated by those factors resulting in formation of dark spots, wrinkles and dehydrated skin. Recently, growing of anti-aging products tends to increase in the fields of dietary supplements and cosmetic products that contain natural active ingredients with antioxidant and anti-aging properties for delaying skin deterioration. This literature review is to integrate the research articles of anti-aging activity involving efficiency and safety of natural active compounds for further utilization in the development of cosmetic products and health care products.
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References
Chang R.C.C., So K.F. Use of anti-aging herbal medicine, Lycium barbarum, against aging-associated diseases. What do we know so far?. Cell Mol. Neurobiol. 2008. 28:643-652.
Miastkowska M. and Sikora E.J.C. Anti-Aging Properties of Plant Stem Cell Extracts. Cosmetics. 2018.5:55.
Rhein L.D., Wilhelm F.J., Placek W. and Marcińczak B. Starzenie skóry: aktualne strategie terapeutyczne. MedPharm. 2013.
Aslamsup R., Bostansup N., Mariasup M. and Safdar W. A critical review on halophytes: salt tolerant plants. J. Med. Plants Res. 2011. 5:7108-7118.
Rodrigues M.J., Pereira C.A., Oliveira M., Neng N.R., Nogueira J.M. and Zengin G. Sea rose (Armeria pungens (Link) Hoffmanns. & Link) as a potential source of innovative industrial products for anti-ageing applications. Ind. Crop. Prod. 2018.121: 250-257.
Zappelli C., Barbulova A., Apone F. and Colucci G.J.C. Effective active ingredients obtained through Biotechnology. Cosmetics. 2016.3:39.
Velioglu Y., Mazza G., Gao L. and Oomah B.J. Antioxidant activity and total phenolics in selected fruits, vegetables, and grain products. J. Agr. Food Chem. 1998.46: 4113-4117.
Seguí J., Gironella M., Sans M., Granell S., Gil F. and Gimeno M. Superoxide dismutase ameliorates TNBS‐induced colitis by reducing oxidative stress, adhesion molecule expression, and leukocyte recruitment into the inflamed intestine. J. Leuko. Biol. 2004.76:537-544.
Heck D.E., Vetrano A.M., Mariano T.M. and Laskin J.D. UVB light stimulates production of reactive oxygen species unexpected role for catalase. J. Biol. Chem. 2003.278:22432-22436.
Nema N.K., Maity N., Sarkar B. and Mukherjee P.K. Cucumis sativus fruit-potential antioxidant, anti-hyaluronidase, and anti-elastase agent. Arch. Dermatol. Res. 2011.303:247-252.
Kim B., Park K.Y., Kim H.Y., Ahn S.C. and Cho E.J. Anti-aging effects and mechanisms of kimchi during fermentation under stress-induced premature senescence cellular system. Food Sci. Biotechnol. 2011.20:643-649.
Zhong W., Liu N., Xie Y., Zhao Y., Song X. and Zhong W.J. Antioxidant and anti-aging activities of mycelial polysaccharides from Lepista sordida. Int. J. Biol. Macromol. 2013.60:355-359.
Ding Q., Yang D., Zhang W., Lu Y., Zhang M. and Wang L. Antioxidant and anti-aging activities of the polysaccharide TLH-3 from Tricholoma lobayense. Int. J. Biol. Macromol. 2016.85:133-140.
Regalado E.L., Rodríguez M., Menéndez R., Concepción Á.A., Nogueiras C. and Laguna A. Repair of UVB-damaged skin by the antioxidant sulphated flavone glycoside thalassiolin B isolated from the marine plant Thalassia testudinum Banks ex König. Biotechnol. 2009.11:74-80.
Zhao X., Qi Y., Yi R. and Park K.Y. Anti-ageing skin effects of Korean bamboo salt on SKH1 hairless mice. Int. J. Biochem. Cell Biol. 2018.103:1-13.
Yang S., Zhou B., Xu W., Xue F., Nisar M.F. and Bian C. Nrf2-and Bach1 May Play a Role in the Modulation of Ultraviolet A-Induced Oxidative Stress by Acetyl-11-Keto-β-Boswellic Acid in Skin Keratinocytes. Skin Pharmacol. Phys. 2017.30:13-23.
Chung J.H., Seo J.Y., Choi H.R., Lee M.K., Youn C.S. and Rhie G.E. Modulation of skin collagen metabolism in aged and photoaged human skin in vivo. J. Investig. Dermatol.2001.117:1218-1224.
Park N.H., Kang Y.G., Kim S.-H., Bae I.H., Lee S.H. and Kim D.Y. Dehydroabietic Acid Induces Regeneration of Collagen Fibers in Ultraviolet B-Irradiated Human Dermal Fibroblasts and Skin Equivalents. Skin Pharmacol. Phys. 2019.32:109-115.
Seo M.Y., Chung S.Y., Choi W.K., Seo Y.K., Jung S.H. and Park J.M.Anti-aging effect of rice wine in cultured human fibroblasts and keratinocytes. J. Biosci. Bioeng. 2009.107:266-271.
Baxter R.A. Anti‐aging properties of resveratrol: review and report of a potent new antioxidant skin care formulation. J. Cosmet. Dermatol. 2008.7:2-7.
Theocharis A.D., Skandalis S.S., Gialeli C. and Karamanos N.K. Extracellular matrix structure. Adv. Drug Deliv. Rev. 2016.97:4-27.
Naba A., Clauser K.R., Ding H., Whittaker C.A., Carr S.A. and Hynes R.O. The extracellular matrix: Tools and insights for the “omics” era. Matrix Biol. 2016.49:10-24.
Masaki H.J. Role of antioxidants in the skin: anti-aging effects. J. Dermatol. Sci. 2010.58:85-90.
Papakonstantinou E., Roth M. and Karakiulakis G.J. Hyaluronic acid: A key molecule in skin aging. Dermto. Endo. 2012.4:253-258.
Scott D.W. and Miller W.H. Equine Dermatology-E-Book. Elsevier Health Sciences, 2010.
Gross J. and Lapiere C.M. Collagenolytic activity in amphibian tissues: a tissue culture assay. PNAS USA. 1962.48:1014.
Zhang Y.M., Chen X.M.., Di W., Zhang X.G.., Yang L. and Shi S.Z. Expression of tissue inhibitor of matrix metalloproteinase-1 in aging of transgenic mouse liver. Chin. Med. J. 2006.119:504-509.
Bourgeois C., Leclerc É.A., Corbin C., Doussot J., Serrano V., Vanier J.-R., et al. Nettle (Urtica dioica L.) as a source of antioxidant and anti-aging phytochemicals for cosmetic applications. C. R. Chim. 2016.19:1090-1100.
Kolakul P., Sripanidkulchai B. Phytochemicals and anti-aging potentials of the extracts from Lagerstroemia speciosa and Lagerstroemia floribunda. Ind. Crop Prod. 2017.109:707-716.
Chaiyana W., Anuchapreeda S., Punyoyai C., Neimkhum W., Lee K.H. and Lin W.C. Ocimum sanctum Linn. as a natural source of skin anti-ageing compounds. Ind. Crop. Prod.2019.127:217-224.
Manosroi A., Jantrawut P., Akihisa T., Manosroi W. and Manosroi J. In vitro anti-aging activities of Terminalia chebula gall extract. Pharm. Biol. 2010.48:469-481.
Sturm R.A., Teasdale R.D. and Box N.F. Human pigmentation genes: identification, structure and consequences of polymorphic variation. Gene. 2001.277:49-62.
Roméro-Graillet C., Aberdam E., Clément M., Ortonne J.P. and Ballotti R.J. Nitric oxide produced by ultraviolet-irradiated keratinocytes stimulates melanogenesis. J. Clin. Invest. 1997.99:635-642.
Lee H.S., Kim M.R., Park Y., Park H.J., Chang U.J. and Kim S.Y. Fermenting red ginseng enhances its safety and efficacy as a novel skin care anti-aging ingredient: in vitro and animal study. J. Med. Food. 2012.15:1015-1023.
Williams M.L. Advances in lipid research. Elsevier, 1991: 211-262.
Feingold K.R. Thematic review series: skin lipids. The role of epidermal lipids in cutaneous permeability barrier homeostasis. J. Lipid Res. 2007.48:2531-2546.
Zielińska A. and Nowak I. Fatty acids in vegetable oils and their importance in cosmetic industry. Chemik. 2014.68:103-110.
Khan B., Akhtar N., Menaa A. and Menaa F.J.C. A novel Cassia fistula (L.)-based emulsion elicits skin anti-aging benefits in humans. Cosmetics. 2015.2:368-383.