[KSCI] Korea Science Citation Index Service

http://dx.doi.org/10.12925/jkocs.2020.37.4.674

The Improvement of skin barrier function and anti-obesity effect of Codonopsis lanceolata by supercritical carbon dioxide extraction

Kim, Bora (Division of Chemistry and Cosmetics, Mokwon University)

Publication Information

Journal of the Korean Applied Science and Technology / v.37, no.4, 2020 , pp. 674-681 More about this Journal

Abstract

The root of Codonopsis lanceolata has been used in traditional medicine. This study was conducted to confirm the comparative effect of ethanol solvent extraction (CLE) and supercritical carbon dioxide extraction (CLS) of C. lanceolata roots. CLS had higher antioxidant than CLE. For supercritical co-solvent modified carbon dioxide extraction (CLS), it were extracted at 250 bar 50℃ 150 min at a flow rate of ethyl alcohol 3 mL/min for 90min. In addition, CLS inhibited the adipocyte differentiation of 3T3-L1 cells. When treated with the extract at a concentration of 100 ㎍/mL, the Wnt/β-catenin pathway reporter luciferase activity of HEK 293-TOP cells increased approximately by 3-folds compared to that of the untreated control group. Also, the treatment by CLS (50 ㎍/mL) showed a significant increase of involucrin expression. These results indicate that supercritical carbon dioxide extract of C. lanceolatamay serve as a cosmeceutical agent for improving skin barrier function and the treatment of obesity.

Keywords

Codonopsis lanceolata; Supercritical carbon dioxide extraction; Involucrin; Wnt/ ${\beta}$ -catenin; Adipocyte differentiation;

Citations & Related Records

Times Cited By KSCI : 2 (Citation Analysis)

Reference
Cited By KSCI

1	J. Liu, S. R. Farmer, "Regulating the Balance between Peroxisome Proliferatoractivated Receptor $\gamma$ and $\beta$ -Catenin Signaling during Adipogenesis", Journal of Biological Chemistry, Vol.279, No.43 pp. 45020-45027, (2004). DOI
2	J. M. Jensen, R. Folster-Holst, A. Baranowsky, M. Schunck, S. Winoto-Morbach, C. Neumann, S. Schutze, E. Proksch, "Impaired Spingomyelinase Activity and Epidermal Differentiation in Atopic Dermatitis", Journal of Investigative Dermatology, Vol.122, No.6, pp. 1423-1431, (2004). DOI
3	J. H. Seo, Y. J. Lee, Y. I. Jo, J. Y. Ko. M. J. Mun, K. H. Park, S. E. Choi, "Anti-fungal, Anti-oxidant, and Antiinflammatory effects of Supercritical Fluid extracts from Ulmus davidiana", Journal of the Korea Convergence Society, Vol..9. No.8, pp. 225-233, (2018). DOI
4	K. Tyskiewicz, M. Konkol, E. Roj, "The Application of Supercritical Fluid Extraction in Phenolic Compounds Isolation from Natural Plant Materials", Molecules, 23, pp. 2625-2652, (2018). DOI
5	D. T. Downing, "Lipid and Protein Structures in the Permeability Barrier of Mammalian Epidermis", Journal of Lipid Research, Vol.33, No.3 pp. 301-313, (1992). DOI
6	K. T. Lee, J. Choi, W. T. Jung, J. H. Nam, H. J. Jung, H. J. Park, "Structure of a New Echinocystic acid Bisdesmoside isolated from Codonopsis lanceolata roots and the Cytotoxic Activity of Prosapogenins", Journal of Agricultural and Food Chemistry, Vol.50, No.15 pp. 4190-4193, (2002). DOI
7	S. E. Byeon, W. S. Choi, E. K. Hong, J. Lee, M. H. Rhee, H. J. Park, J. Y. Cho, "Inhibitory Effect of Saponin fraction from Codonopsis lanceolata on Immune Cell-mediated Inflammatory Responses", Archives of Pharmacal Research, Vol.32. No.6 pp. 813-822, (2009). DOI
8	B. Kim, S. M. Lee, T. Y. Hwang, H. S. Kim, "Anti-oxidative and Skin barrier effects of Natural Plants with a Supercritical Extract", Korean Journal of Food Preservation, Vol.20, No.5 pp. 597-601, (2013). DOI
9	W. M. Holleran, Y. Takagi, G. K. Menon, S. M. Jackson, J. M. Lee, K. R. Feingold, P. M. Elias, "Permeability Barrier Requirements Regulate Epidermal betaglucocerebrosidase", Journal of Lipid Research, Vol.35, No.5 pp. 905-912, (1994). DOI
10	G. Fruhbeck, J. Gomez-Ambrosi, F. J. Muruzabal, M. A. Burrell, "The Adipocyte: a Model for Integration of Endocrine and Metabolic Signaling in Energy Metabolism Regulation", American Journal of Physiology-Endocrinology and Metabolism, Vol.280, No.6 pp. 827-847, (2001). DOI
11	B. Kim, Y. E. Choi, H. S. Kim, "Eruca sativa and its Flavonoid Components, Quercetin and Isorhamnetin, Improve Skin Barrier Function by Activation of Peroxisome proliferator-activated receptor (PPAR)- $\alpha$ and Suppression of Inflammatory Cytokines", Phytotherapy Research, Vol.28, No.9 pp. 1359-1366, (2014). DOI
12	B. Kim, H. S. Kim, "Novel Peptide Inhibits Inflammation by Suppressing of Protease activated receptor-2", European Journal of Pharmacology, Vol.832, No.1 pp. 25-32, (2018). DOI
13	B. Kim, H. S. Kim, "Ricinus communis Extract Inhibits the Adipocyte Differentiation Through Activating the Wnt/ $\beta$ -catenin Signaling Pathway", Korean Jourmal of Food Preservation, Vol.24, No.4 pp. 524-528, (2017). DOI
14	K. V. Sharma, R. Sisodia, "Evaluation of the Free Radical Scavenging Activity and Radioprotective Efficacy of Grewia asiatica fruit", Journal of Radiological Protection, Vol.29, No.3 pp. 429-443, (2009). DOI
15	S. H. Lee, B. Kim, M. J. Oh, J. Y. Yoon, H. Y. Kim, K. J. Lee, J. D. Lee, K. Y. Choi, "Persicaria hydropiper (L.) spach and its Flavonoid Components, Isoquercitrin and Isorhamnetin, Activate the Wnt/- $\beta$ catenin Pathway and Inhibit Adipocyte Differentiation of 3T3-L1 cells", Phytotherapy Research, Vol.25, No.11 pp. 1629-1635, (2011). DOI
16	B. Kim, "The Activation of PPAR- $\alpha$ and Wnt/ $\beta$ -catenin by Luffa cylindrica Supercritical Carbon Dioxide Extract", Natural Product Sciences, Vol.25, No.4 pp. 341-347, (2019). DOI
17	J. Y. Ahn, H. J. Lee, S. N. Kim, T. Y. Ha, "Curcumin-Induced Suppression of Adipogenic Differentiation is Accompanied by Activation of Wnt/ $\beta$ -catenin signaling", American Journal of Physiology Cell Physiolology, Vol.298, No.6 pp. 1510-1516, (2010). DOI
18	Liu J, Farmer SR, Regulating the Balance between Peroxisome Proliferator-activated receptor $\gamma$ and $\beta$ -Catenin Signaling during Adipogenesis. Journal of Biological Chemistry, 279, pp. 45020-45027, (2004). DOI
19	K. Tyskiewicz, M. Konkol, E. Roj, "Supercritical Carbon Dioxide ( $scCO_2$ ) Extraction of Phenolic Compounds from Lavender (Lavandula angustifolia) Flowers: A Box-Behnken Experimental Optimization", Molecules, Vol.24, No.18. pp. 3354-3369, (2019). DOI