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Stability of Various Liposome Formulation Containing the Phytochemical-Peptide Derivatives
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 Title & Authors
Stability of Various Liposome Formulation Containing the Phytochemical-Peptide Derivatives
Han, Byung Seok; Kim, Su Young; Lee, Kyung Rok; Seo, Hyo Hyun; Moh, Sang Hyun;
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In this study, we investigated the stability of the liposome formulation containing the phytochemicals-peptide derivatives. Among liposomes prepared using lecithins or surfactant under various conditions, the most stable niosome was obtained by using sodium palmitoyl sarcosinate and macadamia intergrifolia seed oil. The stability of peptide-containing niosome (N9) was confirmed by the TEM images. The N9 was stable at 0 and 45 degrees by Turbiscan, and its particle size was 95.7 nm. The N9 showed zeta potential value of -78.19 mV, and peptide-inclusion rate of 65.2% by BCA assay.
phytochemical-peptide derivatives;liposome;niosome;Turbiscan;zeta potential;
 Cited by
G. Chansiri, R. T. Lyons, M. V. Patel, and S. L. Hem, The reversibility of the vitamin c redox system: electrochemical reason and biological aspects, J. Pharm. Sci., 88, 454 (1999). crossref(new window)

M. Rosen, Delivery system handbook for personal and cosmetic products, William Andrew, New York, USA (2005).

E. J. Yeom, Master's Thesis Dissertation, Konkuk Univ., Seoul, Korea (2003).

J. M. Yoo, S. Y. Kim, E. A. Cho, E. H. Cho, S. J. Choi, Y. J. Jeong, B. J. Ha, and H. J. Chae, Stabilization of astaxanthin using nanoliposome, KSBB J., 25(2), 150 (2010).

J. M. A. Kemps and D. J. A. Crommelin, Chemische stabiliteit van fosfolipiden in farmaceutische preparaten. I. Hydrolyse van fosfolipiden in waterig milieu, Pharm. Weekbl., 123, 355 (1988).

A. J. Baille, A. T. Florence, L. R. Hume, G. T. Murihead, and A. Rogerson, The preparation and properties of niosome: non-ionic surfactant vesicles, J. Pharm. Pharmacol., 37(12), 863 (1985). crossref(new window)

R. M. Handajani-Vila, A. Riber, B. Rondot, and G. Vanlerghie, Dispersions of lamellar phase of non-ionic lipids in cosmetic products, Int. J. Sci., 1(5), 303 (1979).

G. S. Sim, D. H. Lee, J. H. Kim, B. C. Lee, S. K. Ahn, T. B. Choe, and H. B. Pyo, Sprouted black rice oligopeptide induces expression of hyaluronan synthase in HaCaT keratinocytes and improves skin elasticity, J. Soc. Cosmet. Sci. Korea, 32(1), 7 (2006).

P. Ruzza, Peptides and peptidomimetics in medicinal chemistry, medicinal chemistry and drug design, ed. D. Ekinci, 8, INTECH Open Access Publisher, Rijeka, Croatia (2012).

S. I. Hashimoto, C. Kyowa, and S. Hofu, Ribosome-independent peptide synthesis in nature and their application to dipeptide production, J. Biol. Macromol., 8(2), 28 (2008).

S. Ioannis, F. Demosthenes, V. Katerina, G. T. Andreas, K. Valentinos, and B. Evangelos, Cyanobacterial cyclopeptides as lead compounds to novel targeted cancer drugs, Mar. Drugs, 8(3), 629 (2010). crossref(new window)

M. A. Ruiz, B. Clares, M. E. Morales, and V. Gallardo, Evaluation of the anti-wrinkle efficacy of cosmetic formulations with an anti-aging peptide, Ars. Pharm., 50(4), 168 (2010).

V. S. Kasture, R. K. Sahu, K. Anjan, and D. S. Musmade, Synthesis and antiparkinson activity of gallic acid derivatives, Medicinal Chemistry and Drug Discovery, 3, 134 (2012).

L. D. Reynolds, N. G. Wilson, Scribes and scholars, 3rd edition, Oxford University Press, 193 (1991).

D. M. Nguyen, D. J. Seo, H. B. Lee, I. S. Kim, K. Y. Kim, R. D. Park, and W. J. Jung, Antifungal activity of gallic acid purified from Terminalia nigrovenulosa bark against Fusarium solani, Microb. Pathog., 56, 8 (2013). crossref(new window)

Z. Liu, L. P. Ma, B. Zhou, L. Yang, and Z. L. Liu, Antioxidative effects of green tea polyphenols on free radical initiated and photosensitized peroxidation of human low density lipoprotein, Chem. Phys. Lipids, 106(1), 53 (2000). crossref(new window)

H. S. Jung, M. Y. Song, H. S. Kim, H. H. Seo, J. H. Lee, K. R. Lee, I. Hong, and S. H. Moh, Development of anti-wrinkle materials using galloyl-peptide derivatives, J. Korea Acad. Industr. Coop. Soc., 16(8), 5452 (2015). crossref(new window)