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NTIS 바로가기大韓化粧品學會誌 = Journal of the society of cosmetic scientists of Korea, v.43 no.1, 2017년, pp.43 - 52
강희철 ((주)지에프씨 생명과학연구원) , 주광식 ((주)지에프씨 생명과학연구원) , 주세진 ((주)서울화장품) , 하영애 ((주)서울화장품) , 김학수 ((주)서울화장품) , 차미연 ((주)지에프씨 생명과학연구원)
EtOAc fractions of Magnolia obovata (M. obovata) Bark extracts were studied for the potential ingredient as a safe and effective whitening cosmetic material. The concentration of active substances honokiol was determined by HPLC. In vitro, the fractions reduced the extracellular and intracellular me...
A. J. Thody, E. M. Higgins, K. Wakamatsu, S. Ito, S. A. Burchill, and J. M. Marks, Pheomelanin as well as eumelanin is present in human epidermis, J. Invest. Dermatol., 97(2), 340 (1991).
A. Hennessy, C. Oh, B. Diffey, K. Wakamatsu, S. Ito, and J. Rees, Eumelanin and pheomelanin concentrations in human epidermis before and after UVB irradiation, Pigment Cell Res., 18(3), 220 (2005).
T. H. Nasti and L. Timares, MC1R, eumelanin and pheomelanin: their role in determining the susceptibility to skin cancer, Photochem. Photobiol., 91(1), 188 (2015).
F. Rouzaud, A. L. Kadekaro, Z. A. Abdel-malek, and V. J. Hearing, MC1R and the response of melanocytes to ultraviolet radiation, Mutat. Res., 571(1-2), 133 (2005).
R. A. Newton, S. E. Smit, C. C. Barnes, J. Pedley, P. G. Parsons, and R. A. Sturm, Activation of the cAMP pathway by variant human MC1R alleles expressed in HEK and in melanoma cells, Peptides., 26(10), 1818 (2005).
R. A. Newton, D. W. Roberts, J. H. Leonard, and R. A. Sturm, Human melanocytes expressing MC1R variant alleles show impaired activation of multiple signaling pathways, Peptides., 28(12), 2387 (2007).
R. A. Sturm, D. L. Duffy, N. F. Box, R. A. Newton, A. G. Shepherd, W. Chen, L. H. Marks, J. H. Leonard, and N. G. Martin, Genetic association and cellular function of MC1R variant alleles in human pigmentation, Ann. N. Y. Acad. Sci., 994(1), 348 (2003).
D. Jian, D. Jiang, J. Su, W. Chen, X. Hu, Y. Kuang, H. Xie, J. Li, and X. Chen, Diethylstilbestrol enhances melanogenesis via cAMP-PKA-mediating up-regulation of tyrosinase and MITF in mouse B16 melanoma cells, Steroids., 76(12), 1297 (2011).
S. S. Kim, M. J. Kim, Y. H. Choi, B. K. Kim, K. S. Kim, K. J. Park, S. M. Park, N. H. Lee, and C. G. Hyun, Down-regulation of tyrosinase, TRP-1, TRP-2 and MITF expressions by citrus press-cakes in murine B16F10 melanoma, Asian Pac. J. Trop. Biomed., 3(8), 617 (2013).
W. J. Yoon, M. J. Kim, J. Y. Moon, H. J. Kang, G. Kim, N. H. Lee, and C. G. Hyun, Effect of palmitoleic acid on melanogenic protein expression in murine B16 melanoma, J. Oleo. Sci., 59(6), 315 (2010).
M. Otreba, J. Rok, E. Buszman, and D. Wrzesniok, Regulation of melanogenesis: the role of cAMP and MITF, Postepy. Hig. Med. Dosw., 30(66), 33 (2012).
E. Jung, J. A. Lee, S. Shin, K. B. Roh, J. H. Kim, and D. Park, Madecassoside inhibits melanin synthesis by blocking ultraviolet-induced inflammation, Molecules., 18(12), 15724 (2013).
J. W. Haycock, M. Wagner, R. Morandini, G. Ghanem, I. G. Rennie, and S. M. Neil, ${\alpha}$ -melanocyte-stimulating hormone inhibits NF- ${\kappa}B$ activation in human melanocytes and melanoma cells, J. Invest. Dermatol., 113(4), 560 (1999).
A. Soumyanath, R. Venkatasamy, M. Joshi, L. Faas, B. Adejuyigbe, A. F. Drake, R. C. Hider, A. R. Young. A. Soumyanath, R. Venkatasamy, M. Joshi, L. Faas, B. Adejuyigbe, A. F. Drake, R. C. Hider, and A. R. Young, UV Irradiation affects melanocyte stimulatory activity and protein binding of piperine, Photochem. Photobiol., 82(6), 1541 (2006).
M. Brenner and V. J. Hearing, The protective role of melanin against UV damage in human skin, Photochem. Photobiol., 84(3), 539 (2008).
R. Uchida, S. Ishikawa, and H. Tomoda, Inhibition of tyrosinase activity and melanine pigmentation by 2-hydroxytyrosol, Acta. Pharm. Sin. B., 4(2), 141 (2014).
M. R. Loizzo, R. Tundis, and F. Menichini, Natural and synthetic tyrosinase inhibitors as anti browning agents: an update, Compr. Rev. Food Sci. Food Saf., 11(4), 378 (2012).
K. Maeda and M. Fukuda, Arbutin: mechanism of its depigmenting action in human melanocyte culture, J. Pharmacol. Exp. Ther., 276(2), 765 (1996).
J. Y. Lim, K. Ishiguro, and I. Kubo, Tyrosinase inhibitory p-coumaric acid from ginseng leaves, Phytother. Res., 13(5), 371 (1999).
S. M. An, J. S. Koh, and Y. C. Boo, p-Coumaric acid not only inhibits human tyrosinase activity in vitro but also melanogenesis in cells exposed to UVB, Phytother. Res., 24(8), 1175 (2010).
J. L. Shen, K. M. Man, P. H. Huang, W. C. Chen, D. C. Chen, Y. W. Cheng, P. L. Liu, M. C. Chou, and Y. H. Chen, Honokiol and magnolol as multifunctional antioxidative molecules for dermatologic disorders, Molecules., 15(9), 6452 (2010).
J. Lee, E. Jung, J. Park, K. Jung, S. Lee, S. Hong, J. Park, E. Park, J. Kim, S. Park, and D. Park, Anti-inflammatory effects of magnolol and honokiol are mediated through inhibition of the downstream pathway of MEKK-1 in NF- ${\kappa}B$ activation signaling, Planta. Med., 71(4), 338 (2005).
G. Kaushik, S. Ramalingam, D. Subramaniam, P. Rangarajan, P. Protti, P. Rammamoorthy, S. Anant, and J. M. V. Mammen, Honokiol induces cytotoxic and cytostatic effects in malignant melanoma cancer cells, Am. J. Surg., 204(6), 868 (2012).
N. H. Choi, G. J. Choi, B. S. Min, K. S. Jang, Y. H. Choi, M. S. Kang, M. S. Park, J. E. Choi, B. K. Bae, and J. C. Kim, Effects of neolignans from the stem bark of Magnolia obovata on plant pathogenic fungi, J. Appl. Microbiol., 106(6), 2057 (2009).
Z. L. Kong, S. C. Tzeng, and Y. C. Liu, Cytotoxic neolignans: an SAR study, Bioorg. Med. Chem. Lett., 15(1), 163 (2005).
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