Baeuerle PA. Pro-inflammatory signaling: last pieces in the NFκB puzzle?
Current Biology 8: R19-R22. 1998.
Balaji C, Muthukumaran J, Nalini N. Chemopreventive effect of sinapic acid on 1,2-dimethylhydrazime-induced experimental rat colon carcinogenesis.
Human & Experimental Toxicology 33: 1253-1268. 2014.
Cherng YG, Tsai CC, Chung HH, Lai YW, Kuo SC, Cheng JT. Antihyperglycemic action of sinapic acid in diabetic rats.
Journal of Agricultural and Food Chemistry 61: 12053-12059. 2013.
Frei B, Stocker R, England L, Ames BN. Ascorbate: the most effective antioxidant in human blood plasma.
Antioxidants in Therapy and Preventive Medicine 264: 155-163. 1990.
Gloire G, Legrand-Poels S, Piette J. NF-κB activation by reactive oxygen species: fifteen years later.
Biochemical Pharmacology 72: 1493-1505. 2006.
Jakus V. The role of free radicals, oxidative stress and antioxidant systems in diabetic vascular disease.
Bratislavské Lekárske Listy 101: 541-551. 2000.
Kang KW, Lee SJ, Kim SG. Molecular mechanism of Nrf2 activation by oxidative stress.
Antioxidants & Redox Signaling 7: 1664-1673. 2005.
Kensler TW, Wakabayashi N, Biswal S. Cell survival responses to environmental stresses via the Keap1-Nrf2-ARE pathway.
Annual Review of Pharmacology and Toxicology 47: 89-116. 2007.
Kim MS, Shin WC, Kang DK, Sohn HY. Anti-thrombosis activity of sinapic acid isolated from the lees of bokbunja wine.
Journal of Microbiology and Biotechnology 26: 61-65. 2016.
Kujoth GC, Hiona A, Pugh TD, Someya S, Panzer K, Wohlgemuth SE, Hofer T, Seo AY, Sullivan R, Jobling WA, et al. Mitochondrial DNA mutations, oxidative stress, and apoptosis in mammalian aging.
Science 309: 481-484. 2005.
Kulms D, Zeise E, Pöppelmann B, Schwarz T. DNA damage, death receptor activation and reactive oxygen species contribute to ultraviolet radiation-induced apoptosis in an essential and independent way.
Oncogene 21: 5844-5851. 2002.
Lee JS, Surh YJ. Nrf2 as a novel molecular target for chemoprevention.
Cancer Letters 224: 171-184. 2005.
Lee MG, Jo GH, Kim MN. Structure and function of skine. In: Dermatology. Korean society of dermatology textbook compilation committee, ed. Ryo Moon Gak. Seoul. pp1-29. 2001.
Lee NK, Ku JE, Han HS. Cytoprotective and anti-inflammatory effects of 6-shogaol on human dermal fibroblasts.
Asian Journal of Beauty and Cosmetology 15: 367-376. 2017.
Lee YR, Noh EM, Han JH, Kim JM, Hwang JK, Hwang BM, Chung EY, Kim BS, Lee SH, Lee SJ, et al. Brazilin inhibits UVB-induced MMP-1/3 expressions and secretions by suppressing the NF-κB pathway in human dermal fibroblasts.
European Journal of Pharmacology 674: 80-86. 2012.
Longley BJ, Braverman IM, Edelson RL. Immunology and the skin: current concepts.
Annals of the New York Academy of Sciences 548: 225-232. 1988.
Niki E, Yamamoto Y, Komuro E, Sato K. Membrane damage due to lipid oxidation.
The American Journal of Clinical Nutrition 53: 201S-205S. 1991.
Sagara Y, Dargusch R, Chambers D, Davis J, Schubert D, Maher P. Cellular mechanisms of resistance to chronic oxidative stress.
Free Radical Biology and Medicine 24: 1375-1389. 1998.
Sawa T, Nakao M, Akaike T, Ono K, Maeda H. Alkylperoxyl radical-scavenging activity of various flavonoids and other phenolic compounds: implications for the anti-tumor-promoter effect of vegetables.
Journal of Agricultural and Food Chemistry 47: 397-402. 1999.
Schmidt K. Antioxidant vitamins and beta-carotene: effects on immunocompetence.
The American Journal of Clinical Nutrition 53: 383S-385S. 1991.
Shahidi F, Naczk M. Phenolics in food and nutraceuticals. CRC Press. Boca Raton. pp17-82. 2003.
Shin DS, Kim KW, Chung HY, Yoon S, Moon JO. Effect of sinapic acid against carbon tetrachloride-induced acute hepatic injury in rats.
Archives of Pharmacal Research 36: 626-633. 2013.
Takeda K, Kaisho T, Akira S. Toll-like receptors.
Annual Review of Immunology 21: 335-376. 2003.
Thannickal VJ, Fanburg BL. Reactive oxygen species in cell signaling.
American Journal of Physiology-Lung Cellular and Molecular Physiology 279: L1005-L1028. 2000.
Woo H, Lee S, Kim S, Park D, Jung E. Effect of sinapic acid on hair growth promoting in human hair follicle dermal papilla cells via Akt activation.
Archives of Dermatological Research 309: 381-388. 2017.
Yoon BH, Jung JW, Lee JJ, Cho YW, Jang CG, Jin C, Oh TH, Ryu JH. Anxiolytic-like effects of sinapic acid in mice.
Life Sciences 81: 234-240. 2007.
Zare K, Eidi A, Roghani M, Rohani AH. The neuroprotective potential of sinapic acid in the 6-hydroxydopamineinduced hemi-parkinsonian rat.
Metabolic Brain Disease 30: 205-213. 2015.