Browse > Article
http://dx.doi.org/10.9799/ksfan.2016.29.5.684

The Effect of Lotus (Nelumbo nucifera) Leaf, Stem, and Yeonjabang Powder Extract on the Biochemical Factors in Serum in Mice Fed a High-Fat Diet  

Kim, Yong-Hwan (Dept. of Food Science & Biotechnology, Kyonggi University)
Choi, Kyung-Soon (Dept. of Food and Nutrition, Sahmyook University)
Shin, Kyung-Ok (Dept. of Food and Nutrition, Sahmyook University)
Publication Information
The Korean Journal of Food And Nutrition / v.29, no.5, 2016 , pp. 684-691 More about this Journal
Abstract
In this study, we analyzed the biochemical factors in lotus (Nelumbo nucifera) leaf, stem, and yeonjabang and their effects on serum factor levels in mice fed a high-fat (HF) diet. The loutus leaf showed $9.47{\pm}0.30%$ moisture content, $8.25{\pm}0.39%$ ash, $21.45{\pm}1.25%$ crude protein, and $2.21{\pm}0.13%$ crude fat content; the lotus stem showed $11.84{\pm}0.43%$ moisture, $10.21{\pm}0.64%$ ash, $17.55{\pm}0.92%$ crude protein, and $4.16{\pm}0.23%$ crude fat content; and the lotus yeonjabang showed $11.86{\pm}0.50%$ moisture, $6.81{\pm}0.51%$ ash, $18.71{\pm}1.02%$ crude protein, and $3.95{\pm}0.15%$ crude fat. Blood triglyceride levels were higher in the HF group ($146.43{\pm}38.81mg/dL$), and lower in the HF+yeonjabang groups ($98.00{\pm}17.18mg/dL$). In particular, blood triglyceride levels were significantly lower in the groups that had 10% dry yeonjabang powder added to the high-fat diet. The inclusion of excessive high-fat diet increased concentrations of serum insulin and leptin. Serum leptin concentrations were highest in the HF group mice ($3.00{\pm}1.35ng/dL$), whereas they were significantly lower in the HF+yeonjabang groups by $1.34{\pm}0.52ng/dL$ (p<0.05). Thus, addition of dry yeonjabang powder to the high-fat diet was more effective in regulating the levels of serum triglycerides and leptin in mice. Additional studies would help in the development of yeonjabang as a functional food.
Keywords
lotus; high-fat diet; yeonjabang; triglyceride; leptin;
Citations & Related Records
Times Cited By KSCI : 20  (Citation Analysis)
연도 인용수 순위
1 Park KJ, Jeong JW, Lim JH, Kim BK, Jeong SW. 2008. Quality changes in peeled lotus roots immersed in electrolyzed water prior to wrap- and vacuum-packaging. Korean J Food Preserv 15:622-629
2 Bhat R, Sridhar KR. 2008. Nutritional quality evaluation of electron beam-irradiated lotus (Nelumbo nucifera) seeds. Food Chem 107:174-184   DOI
3 Borsch T, Barthlott W. 1994. Classification and distribution of the genus Nelumbo adans (Nelumbonaccae). Beitr Biol Pflazen 68:421-450
4 Byun BH, Moon KS, Song YS. 2005. Chinese Nutritional Food. Shinil Sangsa Co., Ltd., Seoul, Korea. p 98-99
5 Castracane VD, Kraemer RR, Franken MA, Kraemer GR, Gimpel T. 1998. Serum leptin concentration in women: Effect of age, obesity, and estrogen administration. Fertil Steril 70: 472-477   DOI
6 Rai S, Wahile A, Mukherjee K, Pada Saha B, Mukherjee PK. 2006. Antioxidant activity of Nelumbo nucifera (sacre lotus) seeds. J Ethnopharmacol 104:322-327   DOI
7 Reitaman S, Frankel S. 1957. A colorimetric method for the determination of serum glutamic oxalacetic and glutamic pyruvic transaminases. Am J Clin Pathol 28:56-63   DOI
8 Rudel L, Morris MD. 1973. Determination of cholesterol using o-phthalaldehyde. J Lipid Res 14:364-366
9 Sin MK, Han SH, Han GJ. 1997. The Effects of green tea on the serum lipid and liver tissue of cholesterol fed rats. Korean J Food Sci Technol 29:1255-1263
10 Yang D, Wang Q, Ke L, Jiang J, Ying T. 2007a. Antioxidant activities of various extracts of lotus (Nelumbo nuficera Gaertn) rhizome. Asia Pac J Clin Nutr 16:158-163
11 Yang HC, Heo NC, Cheol KC, Ahn YJ. 2007b. Nutritional composition of white-flowered and pink-flowered lotus in different parts. Koran J Food Sci Technol 39:14-19
12 Yi Y, Sun J, Xie J, Min T, Wang LM, Wang HX. 2016. Phenolic profiles and antioxidant activity of lotus root varieties. Molecules 30;21(7). pii: E863. p1-12
13 Yook CS. 1989. A Pictorial Book for Korean Curative Herb. Academy Co., Ltd., Seoul, Korea. pp 219-230
14 Yuk CS. 1990. Coloured Medicinal Plants of Korea. Academy Book Co., Seoul, Korea. pp 219-230
15 Zhu M, Liu T, Guo M. 2016. Current advances in the metabolomics study on lotus seeds. Front Plant Sci 20:1-9
16 Choi CS, Kim YW, Lee HS, Yoon TH, Cho BM, Lee SI, Kim SS, Hwang IK. 2009. Effects of zinc plus arachidonic acid on insulin resistance in high fructose-fed rats. J Korean Soc Food Sci Nutr 38:415-422   DOI
17 Chiang PY, Luo YY. 2007. Effects of pressurized cooking on the relationship between the chemical compositions and texture changes of lotus root (Nelumbo nucifera Gaertn). Food Chem 105:480-484   DOI
18 Cho JE, Yoo GY, Lee MA, Chung YB, Yang JH, Han ES, Seo HY. 2012. Characteristics of lotus and lance Asia bell as ingredients of kimchi. Korean Soc Food Sci Nutr 41:1144-1150   DOI
19 Cho WK, Choi JH. 2007. Effect of pyroligneous liquor on lipid metabolism in serum of CD rats. Korean J Nutr 40:24-30
20 Choi KS, Kim YH, Kim SO, Shin KO, Chung KH. 2013a. Effect of intake of sponge gourd (Luffa sylindrica) seed oil and Yukdomok (Chionanthus retusa L.) seed oil on lipid levels of blood and organs of a mice. Food Sci Biotechnol 22: 757-763   DOI
21 Chung KH, Hwang HJ, Shin KO, Jeon WM, Choi KS. 2013. Effects of perilla oil on plasma concentrations of cardioprotective (n-3) fatty acids and lipid profiles in mice. Nutr Res Pract 7:256-261   DOI
22 Choi KS, Kim YH, Shin KO. 2016. Effect of mulberry extract on the lipid profile and liver function in mice fed a high fat diet. Korean J Food & Nutr 29:411-419   DOI
23 Choi KS, Shin KO, Kim YH, Yoo IS, Jeong H, Kim KS, Lee JS. 2013b. The effect of Prunus sargentii R. seed oil on the lipid profile in serum in mice. Korean J Food & Nutr 26:670-677   DOI
24 Chouaibi M, Mahfoudhi N, Rezig L, Donsi F, Ferrari G, Hamdi S. 2012. Nutritional composition of Zizyphus lotus L. seeds. J Sci Food Agric 92:1171-1177   DOI
25 Du H, Zhao X, You JS, Park JY, Kim SH, Chang KJ. 2010b. Antioxidant and hepatic protective effects of lotus root hot water extract with taurine supplementation in rats fed a high fat diet. J Biomed Sci 17:S39   DOI
26 Considine RV, Sinha MK, Heiman ML, Kriauciunas A, Stephens TW, Nyce MR, Ohannesian JP, Marco CC, McKee LJ, Bauer TL, Caro JF. 1996. Serum immunoreactive-leptin concentrations in normal-weight and obese humans. N Engl J Med 334: 292-295   DOI
27 Dahlgren R, Rasmussen FN. 1983. Monocotyledon evolution characters and phylogenetic estimation. J Evol Biol 16:255-265
28 Du H, You JS, Zhao X, Park JY, Kim SH, Chang KJ. 2010a. Antiobesity and hypolipidemic effects of lotus leaf hot water extract with taurine supplementation in rats fed a high fat diet. J Biomed Sci 24;17 Suppl 1:S42   DOI
29 Han KY, Yoon SJ. 2007. Quality characteristics of lotus leaf jeolpyun during storage. J Korean Soc Food Sci Nutr 36: 1604-1611   DOI
30 Han SJ, Koo SJ. 1993. Study on the chemical composition in bamboo shoot, lotus root and burdock-free sugar, fatty acid, amino acid and dietary fiber contents. Korean J Soc Food Sci 9:82-87
31 Havel PJ, Kasim-Karakas S, Mueller W, Johnson PR, Gingerich RL, Stern JS. 1996. Relationship of plasma leptin to plasma insulin and adiposity in normal weight and overweight women: Effects of dietary fat content and sustained weight loss. J Clin Endocrinol Metab 81:4406-4413
32 Havel PJ. 2000. Role of adipose tissue in body-weight regulation: Mechanisms regulating leptin production and energy balance. Proc Nutr Soc 59:359-371   DOI
33 Hong KH, Kang SA, Kim SH, Choue RW. 2001. Effects of high fat diet on serum leptin and insulin level and brown adipose tissue UCP 1 expression in rats. Korean J Nutr 34:865-871
34 Jung HA, Kim JE, Chung HY, Choi JS. 2003. Antioxidant principles of Nelumbo nucifera Stamens. Arch Pharm Res 26:279-285   DOI
35 Ko BS, Jun DW, Jang JS, Kim JH, Park SM. 2006. Effect of Sasa borealis and white lotus roots and leaves on insulin action and secretion in vitro. Korean J Food Sci Technol 38:114-120
36 Kim HS, Lee CH, Oh JW, Lee JH, Lee SK. 2011. Quality characteristics of sponge cake with added lotus leaf and lotus root powders. J Korean Soc Food Sci Nutr 40:1285-1291   DOI
37 Kim MH, Lee YS, Lee DH, Park HS, Sung CJ. 2001. The study of relation among serum copper, zinc, leptin and lipids of middl-school girls. J Korean Soc Food Sci Nutr 30:540-546
38 Kim SB, Rho SB, Rhyu DY, Kim DW. 2005. Effect of Nelumbo nucifera leavs on hyperlipidemic and atheroselerotic bio FIB hamster. Korean J Pharmacogn 36:229-234
39 Lee K, Kim J, Lee N, Park S, Cho H, Chun Y. 2015. Effects of potato and lotus leaf extract intake on body composition and blood lipid concentration. J Exerc Nutr Biochem 19: 25-30   DOI
40 Lee KS, Kim MG, Lee KY. 2006a. Antioxidative activity of ethanol extract from lotus (Nelumbo nucifera) leaf. J Korean Soc Food Sci Nutr 35:182-186   DOI
41 Lee KS, Kwon YJ, Lee KY. 2008. Analysis of chemical composition, vitamin, mineral and antioxidative effect of the lotus leaf. J Korean Soc Food Sci Nutr 37:1622-1626   DOI
42 Lee KS, Lee KY. 2011. Effect of lotus (Nelumbo nucifera) leaf extract on serum and liver lipid levels of rats fed a high fat diet. J Korean Soc Food Sci Nutr 40:1544-1547   DOI
43 Lee KS, Oh CS, Lee KY. 2006b. Antimicrobial effect of the fractions extracted from a lotus (Nelumbo nucifera) leaf. J Korean Soc Food Sci Nutr 35:219-223   DOI
44 Lee YS, Park MJ, Choi JE, Kim JY, Nam MS, Jeong YH. 2007. Effects of silk protein hydrolysates on blood glucose level, serum insulin and leptin secretion in OLETF rats. J Korean Soc of Food Sci Nutr 36:703-707   DOI
45 Moon SM, Kim HJ, Ham KS. 2003. Purification and characterization of polyphenol oxidase from lotus root (Nelumbo nucifera G.). Korean J Food Sci Technol 35:791-796
46 Lin X, Chavez MR, Bruch RC, Kilroy GE, Simmons LA, Lin L, Braymer HD, Bray GA, York DA. 1998. The effects of a high fat diet on leptin mRNA, serum leptin and the response to leptin are not altered in a rat strain susceptible to high fat diet-induced obesity. J Nutr 128:1606-1613   DOI
47 Ling ZQ, Xie BJ, Yang EI. 2005. Isolation, characterization and determination of antioxidative activity of oligomeric procyanidins from the seedpod of Nelumbo nucifera Gaertn. J Agric Food Chem 53:2441-2445   DOI
48 M Guerre-Millo. 1997. Regulation of ob gene and overexpression in obesity. Biomed & Pharmacother 51:318-323   DOI
49 Martinek RG. 1972. A rapid ultraviolet spectrophotometric lactic dehydrogenase assay. Clin Chim Acta 40:91-99   DOI
50 Mkadmini Hammi K, Hammami M, Rihouey C, Le Cerf D, Ksouri R, Majdoub H. 2016. Optimization extraction of polysaccharide from Tunisian Zizyphus lotus fruit by response surface methodology: Composition and antioxidant activity. Food Chem 1:76-84
51 Mukherjee P, Mukherjee D, Maji A, Rai S, Heinrich M. 2009. The sacred lotus (Nelumbo nucifera)-phytochemical and therapeutic profile. J Pharm Pharmacol 61:407-422   DOI
52 Na MK, An RB, Lee SM, Hong ND, Yoo JK, Lee CB, Kim JP, Bae KH. 2001. Screening of crude drugs for antioxidative activity. Korean J Phamacogn 32:108-115
53 National Rural Resources Development Institute, R.D.A. 2007. Food Composition Table I. 7 Revision. pp 92, pp 142, pp 362
54 Park BH, Jeon ER, Kim SD, Cho HS. 2009. Changes in the quality characteristics of Lotus root pickle with beet extract during storage. J Korean Soc Food Sci Nutr 38:1124-1129   DOI