화학공학소재연구정보센터
로그인 로그아웃 연락처 사이트맵
Journal of Industrial and Engineering Chemistry, Vol.84, 252-259, April, 2020
DOI10.1016/j.jiec.2020.01.006  Export Citation
Colorimetric assay of tyrosinase inhibition using melanocyte laden hydrogel fabricated by digital light processing printing
Hojung Kwak1, Sungchul Shin1, and Jinho Hyun1, 2, †
  • 1Department of Biosystems and Biomaterials Science and Engineering, Seoul National University, Seoul 151-921, Republic of Korea
  • 2Research Institute of Agriculture and Life Sciences, Seoul National University, Seoul 151-921, Republic of Korea
E-mail:
Colorimetric assay of melanogenesis inhibition was demonstrated with polyethylene glycol tetraacrylate (PEG-4A) hydrogel structures embedding melanocyte cells. The cell laden PEG-4A hydrogel structure was prepared by digital light processing printing using biocompatible visible range of light. The melanocyte in PEG-4A hydrogel structure showed a high cell compatibility and expressed melanin changing a color of hydrogel to black. The inhibition of melanin expression was evaluated by injecting a different concentration of arbutin and kojic acid to the cell laden hydrogel structure in a 3D printed microfluidic chip. The tyrosinase inhibitors prevented a color change of the hydrogel pad according to the dosage showing a similar detecting efficiency to a commercial melanogenesis assay kit.
Keywords:Colorimetric assay;Melanocyte;Cell-laden hydrogel;Tyrosine inhibitors;Digital light processing;3D printing;Polyethylene glycol tetraacrylate
  1. Lin JY, Fisher DE, Nature, 445, 843 (2007)
  2. Huang L, Liu MY, Huang HY, Wen YQ, Zhang XY, Wei Y, Biomacromolecules, 19(6), 1858 (2018)
  3. D'Orazio J, Jarrett S, Amaro-Ortiz A, Scott T, Int. J. Mol. Sci., 14(6), 12222 (2013)
  4. Sulaimon SS, kitchell BE, Vet. Dermatol., 14, 57 (2003)
  5. Westerhof W, Pigm. Cell. Res., 19, 183 (2006)
  6. Hearing VJ, Jimenez M, Int. J. Biochem., 19, 1141 (1987)
  7. Cabanes J, Chazzara S, Garcia-carmona F, J. Pharm. Pharmacol., 46, 982 (1994)
  8. Ito S, Wakamatsu K, J. Dermatol. Sci., 80, 18 (2015)
  9. Sugimoto K, Nishimura T, Nomura K, Sugimoto K, Kuriki T, Chem. Pharm. Bull., 51, 798 (2003)
  10. Saeedi M, Eslamifar M, Khezri K, Biomed. Pharmacother., 110, 582 (2019)
  11. Shimada Y, Tai H, Tanaka A, Ikezawa-Suzuki I, Takagi K, Yoshida Y, Yoshie H, J. Periodontol., 80, 317 (2009)
  12. Gasowska-Bajger B, Wojtasek H, J. Agric. Food Chem., 64, 5417 (2016)
  13. Ruzza P, Serra PA, Fabbri D, Dettori MA, Rocchitta G, Delogu G, Eur. J. Med. Chem., 126, 1034 (2017)
  14. Ao H, Qian Z, Zhu Y, Zhao M, Tang C, Huang Y, Feng H, Wang A, Biosens. Bioelectron., 86, 542 (2016)
  15. Honisch C, Osto A, de Matos AD, Vincenzi S, Ruzza P, Food Chem., 305, 125506 (2020)
  16. Lin TE, Bondarenko A, Lesch A, Pick H, Cortes-Salazar F, Girault HH, Angew. Chem.-Int. Edit., 55, 3813 (2016)
  17. Wang L, Gan ZF, Guo D, Xia HL, Patrice FT, Hafez ME, Li DW, Anal. Chem., 91, 6507 (2019)
  18. Ciui B, Martin A, Mishra RK, Brunetti B, Nakagawa T, Dawkins TJ, Lyu M, Cristea C, Sandulescu R, Wang J, Adv. Healthc. Mater., 7, 170126 (2018)
  19. Chai L, Zhou J, Feng H, Tang C, Huang Y, Qian Z, ACS Appl. Mater. Interfaces, 7, 23564 (2015)
  20. Yan X, Li H, Zheng W, Su X, Anal. Chem., 87, 8904 (2015)
  21. Sun J, Mei H, Wang S, Gao F, Anal. Chem., 88, 7372 (2016)
  22. Liu B, Huang P, Li J, Wu F, Sens. Actuators B-Chem., 251, 836 (2017)
  23. Deng H, Lin X, He S, Wu G, Wu W, Yang Y, Lin Z, Peng H, Xia X, Chen W, Microchim. Acta, 186, 301 (2019)
  24. Zhang L, Deng H, Lin F, Xu X, Weng S, Liu A, Lin X, Xia X, Chen W, Anal. Chem., 86, 2711 (2014)
  25. Kim H, Choi J, Cho J, Kim S, Lee Y, Bioorg. Med. Chem. Lett., 14, 2843 (2004)
  26. Kahn V, Pigm. Cell. Res., 8, 234 (1995)
  27. Dan-Ning H, Photochem. Photobiol., 84, 645 (2008)
  28. Chung S, Lim G, Lee J, Sci. Rep., 9, 780 (2019)
  29. McKee C, Beeravolu N, Brown C, Cruet M, Chaudhry GR, Appl. Mater. Today, 100474 (2019).
  30. Lee S, Ki C, Carbohydr. Polym., 229, 115555 (2020)
  31. Grenier J, Duval H, Barou F, Lv P, David B, Letourneur D, Acta Biomater., 94, 195 (2019)
  32. Jin R, Teixeira M, Krouwels A, Dijkstra PJ, van Blitterswijk CA, Karperien M, Feijen J, Acta Biomater., 6, 1968 (2010)
  33. Huynh CT, Liu F, Cheng Y, Coughlin KA, Alsberg E, ACS Appl. Mater. Interfaces, 10, 25936 (2018)
  34. Wang J, Kumar H, Tian Z, Jin X, Holzman JF, Menard F, Kim K, ACS Appl. Mater. Interfaces, 10, 26859 (2018)
  35. Lee S, Tong X, Yang F, Acta Biomater., 10, 4167 (2014)
  36. Shin S, Kwak H, Hyun J, ACS Appl. Mater. Interfaces, 10, 23573 (2018)
  37. Wu GH, Hsu SH, J. Med. Biol. Eng., 35, 285 (2015)
  38. Sriram G, Alberti M, Dancik Y, Wu B, Wu R, Feng Z, Ramasamy S, Bigliardi PL, Bigliardi-Qi M, Wang Z, Mater. Today, 21, 326 (2018)
  39. Hao Y, Shih H, Munoz Z, Kemp A, Lin CC, Acta Biomater., 10, 104 (2014)
  40. Kwak HJ, Shin SC, Lee HJ, Hyun JH, J. Ind. Eng. Chem., 72, 232 (2019)
  41. Rubinstein M, Colby RH(Eds.), Polymer physics, Oxford University Press, pp.259 2003.
  42. Wen JH, Vincent LG, Fuhrmann A, Choi YS, Hribar KC, Taylor-Weiner H, Chen SC, Engler AJ, Nat. Mater., 13(10), 979 (2014)