The anti-obesity effects of EGCG in relation to oxidative stress and air-pollution in China

doi:10.1007/s13659-013-0060-5

Natural Products and Bioprospecting

2013, Vol. 3

Issue (6) : 256-266 DOI: 10.1007/s13659-013-0060-5

Review

The anti-obesity effects of EGCG in relation to oxidative stress and air-pollution in China

Simon CICHELLO^a,c, Pingsheng LIU^b, Markendya JOIS^a

a School of Life Sciences, La Trobe University, Victoria 3086, Australia;
b National Laboratory of Biomacromolecules, Institute of Biophysics, Chinese Academy of Sciences, Beijing 100101, China;
c Ministry of Education Key Laboratory of Pu'er Tea, Yunnan Agricultural University, Yunnan 650201, China

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Abstract Modern China, similar to most developing nations, has seen a rise in the prevalence of both obesity and diesel exhaust based air pollution. The cause of obesity is multi-factorial encompassing diet, lifestyle and social factors. Also there has been a reduction in the consumption of fruit, vegetables, and traditional medicinal foods such as polyphenol containing green tea. Replacing these, are high fat and carbohydrate based processed foods which are quickly displacing these wholefoods in the diet. This review paper proposes evidence that a potential cause of obesity is also linked to environmental stress stimuli such as air pollutants, particularly diesel exhaust fumes (DEF) of > 2.5 μm particulate matter, and discusses a role for a green tea catechin (EGCG) for use as a dietary defence against diet and environmentally induced obesity. China is now at a critical point of a public health pandemic with rising air-borne pollution (via car exhaust fumes DEF), industry pollution such as heavy metals, and the benzene hydrocarbon based ‘2PM’ particulate matter, now accepted as a major environmental issue for public health. Relevant data published in MEDLINE since 1995 has been gathered to formulate the following review.

Keywords EGCG obesity air-pollution diesel exhaust fumes (DEF) 2PM reactive oxygen species (ROS) inflammation

Issue Date: 11 February 2018

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Simon CICHELLO,Pingsheng LIU,Markendya JOIS. The anti-obesity effects of EGCG in relation to oxidative stress and air-pollution in China[J]. Natural Products and Bioprospecting, 2013, 3(6): 256-266.

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http://npb.kib.ac.cn/EN/10.1007/s13659-013-0060-5 OR http://npb.kib.ac.cn/EN/Y2013/V3/I6/256

[1]	Dulloo, A. G.; Montani, J. P. Obes. Rev. 2012, 13, 1-5.
[2]	Song, Y.; Wang, H. J.; Ma, J.; Wang, Z. PLoS One 2013, 8, e53069.
[3]	Xu, X.; Deng, F.; Guo, X.; Lv, P.; Zhong, M.; Liu, C.; Wang, A.; Tzan, K.; Jiang, S. Y.; Lippmann, M.; Rajagopalan, S.; Qu, Q.; Chen, L. C.; Sun, Q. Toxicol. Lett. 2012, 212, 20.
[4]	Bolton, J. L.; Smith, S. H.; Huff, N. C.; Gilmour, M. I.; Foster, W. M.; Auten, R. L.; Bilbo, S. D. FASEB J. 2012, 26, 474-454.
[5]	Xia, W.; Sun, C.; Zhao, Y.; Wu, L. Phytomedicine 2011, 18, 516-520.
[6]	Seo, D. C.; Niu, J. Int. J. Behav. Med. 2013, Jun 7.
[7]	Suzuki, Y.; Miyoshim, N.; Isemura, M. Proc. Jpn. Acad. Ser. B Phys. Biol. Sci. 2012, 88, 88-101.
[8]	Bazzano, L. A.; Serdula, M. K.; Liu, S. Curr. Atheroscler. Rep. 2003, 5, 492-499.
[9]	Wu, S.; Deng, F.; Hao, Y.; Shima, M.; Wang, X.; Zheng, C; Wei, H; Lv, H; Lu, X; Huang, J; Qin, Y; Guo, X. J. Hazard. Mater. 2013, 260C, 183191.
[10]	Boyle, K. E.; Zheng, D.; Anderson, E. J.; Neufer, P. D.; Houmard, J. A. Int. J. Obes. (Lond) 2012, 36, 1025-1031.
[11]	Xu, X.; Yavar, Z.; Verdin, M.; Ying, Z.; Mihai, G.; Kampfrath, T.; Wang, A.; Zhong, M.; Lippmann, M.; Chen, L. C.; Rajagopalan, S.; Sun, Q. Arterioscler. Thromb. Vase. Biol. 2010, 30, 2518-2527.
[12]	Nevanpera, N. J.; Hopsu, L.; Kuosma, E.; Ukkola, O.; Uitti, J.; Laitinen, J. H. Am. J. Clin. Nutr. 2012, 95, 934-943.
[13]	Item, F.; Konrad, D. Obes. Rev. 2012, 13, 30-39.
[14]	Yang, L.; Ding, Y.; Chen, Y.; Zhang, S.; Hup, C.; Wang, Y.; Yu, J.; Zhang, P.; Na, H.; Zhang, H.; Ma, Y.; Liu, P. J. Lipid Res. 2012, 53, 1245-1253.
[15]	Kim, H. S.; Montana, V.; Jang, H. J.; Parpura, V.; Kim, J. A. J. Biol. Chem. 2013, Jun 10.
[16]	Rowan-Carroll A.; Halappanavar, S.; Williams, A.; Somers, C. M.; Yauk, C. L. Environ. Mol. Mutagen. 2013, 54, 240-249.
[17]	Rundle, A.; Hoepner, L.; Hassoun, A.; Oberfield, S.; Freyer, G.; Holmes, D.; Reyes, M.; Quinn, J.; Camann, D.; Perera, F.; Whyatt, R. Am. J. Epidemiol. 2012, 175, 1163-1172.
[18]	Ino, T.; Shibuya, T.; Saito, K.; Inaba, Y. Int. J. Obes. (Lond) 2012, 36, 554-558.
[19]	Hartz, A. M.; Bauer, B.; Block, M. L.; Hong, J. S.; Miller, D. S. FASEB J. 2008, 22, 2723-2733.
[20]	Kumagai, Y; Arimoto, T.; Shinyashiki, M; Shimojo, N; Nakai, Y.; Yoshikawa, T.; Sagai M. Free Radic. Biol. Med. 1997, 22, 479-487.
[21]	Awasthi, Y. C.; Misra, G.; Rassin, D. K.; Srivastava, S. K. Br. J. Haematol. 1983, 55, 419-425.
[22]	Bolhuis, H.; van Veen, H. W.; Poolman, B.; Driessen, A. J. M.; Konings, W. N. FEMS Microbiol. Rev. 1997, 21, 55-84.
[23]	Chow, H. H.; Hakim, I. A.; Vining, D. R.; Crowell, J. A.; Cordova, C. A.; Chew, W. M.; Xu, M. J., Hsu, C. H., Ranger-Moore, J., Alberts, D. S. Cancer Epidemiol. Biomarkers Prev. 2006, 15, 2473-2476.
[24]	Peters, C. M.; Green, R. J.; Janle, E. M.; Ferruzzi, M. G. Food Res. Int. 2010, 43, 95-102.
[25]	Bone, K. (2007) Phytotherapy Press, Warwick, QLD, Australia.
[26]	Basu, A.; Sanchez, K.; Leyva, M. J.; Wu, M.; Betts, N. M.; Aston, C. E.; Lyons, T. J. J. Am. Coll. Nutr. 2010, 29, 31-40.
[27]	Faienza MF, F. R.; Goffredo, R.; Ventura, A.; Marzano, F.; Panzarino, G. Horm. Res. Paediatr. 2012, 78, 158-164.
[28]	Han, K. C.; Wong, W.; Benzie, I. F. Br. J. Nutr. 2011, 105, 171-179.
[29]	Chuang, K. J.; Chan, C. C.; Su, T. C.; Lee, C. T.; Tang, C. S. Am. J. Resp. Crit. Care Med. 2011, 176, 370-376.
[30]	Netsch, M. I.; Gutmann, H.; Luescher, S.; Brill, S.; Schmidlin, C. B.; Kreuter, M. H.; Drewe, J. J. Planta Med. 2005, 71, 135-141.
[31]	Mei, Y.; Qian,. F.; Wei, D.; Liu, J. J. Pharm. Pharmacol. 2004, 56, 1307-1314.
[32]	Geetanjali, K.; Santosh, S.; Naik. S. N. Mediterranean J. Nutr. Metab. 2011, 4, 11-31.
[33]	Coy, D. J. (2012). Theses and Dissertations-Toxiology. Paper 4. http://unowledge.uky.edu/toxicology_etds/4.
[34]	Chan, K. H.; Ho, S. P.; Yeung, S. C.;So, W. H.; Cho, C. H.; Koo, M. W.; Lam, W. K.; Ip, M. S.; Man, R. Y.; Mak, J. C. Repir. Med. 2009, 103, 1746-1754.
[35]	Qin, B.; Polansky, M. M.; Harry, D.; Anderson, R. A. Mol. Nutr. Food Res. 2010, 54, 14-23.
[36]	Reuland, D. J.; Khademi, S.; Castle, C. J.; Irwin, D. C.; McCord, J. M., Miller, B. F.; Hamilton, K. L. Free Radic. Biol. Med. 2013, 56, 102-111.
[37]	Akhlaghi, M.; Bandy, B. Nutr. Res. 2010, 30, 32-39.
[38]	Kaplowitz, N. Yale J. Biol. Med. 1981, 54, 497-502.
[39]	Sugiyama, T.; Sadzuka, Y. Cancer Lett. 2004, 212, 177-184.
[40]	Fracasso, M. E.; Doria, D.; Bartolucci, G. B.; Carrieri, M.; Lovreglio, P.; Ballini, A.; Soleo, L.; Tranfo, G.; Manno, M. Toxicol. Lett. 2010, 192, 22-28.
[41]	Lee, S. F.; Liang, Y. C.; Lin, J. K. Chem. Biol. Interact. 1995, 98, 283-301.
[42]	Calani, L.; Dall'Asta, M.; Derlindati, E.; Scazzina, F.; Bruni, R.; Del Rio, D. J. Clin. Gastroenterol. 2012, 46, 95-99.
[43]	Misaka, S.; Kawabe, K.; Onoue, S.; Werba, J. P.; Giroli, M.; Tamaki, S.; Kan, T.; Kimura, J.; Watanabe, H.; Yamada, S. Drug Metab. Pharmacokinet. 2013, 28, 244-249.
[44]	Tulayakul, P.; Dong, K. S.; Li, J. Y.; Manabe, N.; Kumagai, S. Toxicon 2007, 50, 339-348.
[45]	Walker, M. W.; Kinter, M. T.; Roberts, R. J.; Spitz, D. R. Pediatr. Res. 1995, 37, 41-49.
[46]	Wheeler, D. S.; Lahni, P. M.; Hake, P. W.; Denenberg, A. G.; Wong, H. R.; Snead, C.; Catravas, J. D., Zingarelli, B. Shock 2007, 3, 353-359.
[47]	Saiwichai, T.; Sangalangkarn, V.; Kawahara, K.; Oyama, Y.; Chaichalotornkul, S.; Narkpinit, S.; Harnyuttanakorn, P.; Singhasivanon, P.; Maruyama, I.; Tancharoen, S. Southeast Asian J. Trop. Med. Public Health 2010, 41, 250-258.
[48]	El-Mowafy, A. M.; Al.-Gayyar, M. M.; Salem, H. A.; El-Mesery, M. E.; Darweish, M. M. Phytomedicine 2010, 17, 1067-1075.
[49]	Relja, B.; Tottel, E.; Breig, L.; Henrich, D.; Schneider, H.; Marzi, I.; Lehnert M. Eur. J. Nutr. 2012, 51, 311-321.
[50]	Sae-tan, S.; Grove, K.; Lambert, J. D. Pharmacol. Res. 2011, 64, 146-154.
[51]	Wolfram, S.; Raederstorff, D.; Wang, Y.; Teixeira, S. R.; Elste, V.; Weber, P. Ann. Nutr. Metab. 2005, 49, 54-63.
[52]	Hsu, C. H.; Tsai, T. H.; Kao, Y. H.; Hwang, K. C.; Teng, T. Y.; Chou, P. Clin. Nutr. 2008, 27, 363-370.
[53]	Cichello, S. A.; Begg, D. P.; Jois, M.; Weiseinger, R. S. Asia Pac. J. Clin. Nutr. 2007, 16, 48.
[54]	Bose, M.; Lambert, J. D.; Ju, J.; Reuhl, K. R.; Shapses, S. A.; Yang, C. S. J. Nutr. 2008, 138, 1677-1683.
[55]	Shen, C. L.; Cao, J. J.; Dagda, R. Y.; Chanjaplammootil, S.; Lu, C.; Chyu, M. C.; Gao, W.; Wang, J. S.; Yeh, J. K. Nutr. Res. 2012, 32, 448-457.
[56]	Brown, A. L.; Lane, J.; Holyoak, C.; Nicol, B.; Mayes, A. E.; Dadd, T. Br. J. Nutr. 2011, 106, 1880-1889.
[57]	Yang, H. Y.; Wang, S. C.; Chao, J. C.; Chen, J. R. Br. J. Nutr. 2012, 107, 749-754.
[58]	Lee, M. S.; Kim, C. T.; Kim, Y. Ann. Nutr. Metab. 2009, 54, 151-157.
[59]	Lee, H.; Bae, S.; Yoon, Y. J. Nutr. Biochem. 2013, 24, 1232-1240.
[60]	Lin, J. K.; Lin-Shiau, S. Y. Mol. Nutr. Food Res. 2006, 50, 211-217.
[61]	Cha, K. H.; Song, D. G.; Kim, S. M.; Pan, C. H. J. Agri. Food Chem. 2012, 60, 7152-7157.
[62]	Kao, C. C.; Wu, B. T.; Tsuei, Y. W.; Shih, L. J.; Kuo, Y. L.; Kao, Y. H. Planta Med. 2010, 76, 694-696.
[63]	Chan, C. Y.; Wei, L.; Castro-Munozledo, F.; Koo, W. L. Life Sci. 2011, 89, 779-785.
[64]	Venables, M. C.; Hulsston, C. J.; Cox, H. R.; Jeukendrup, A. E. Am. J. Clin. Nutr. 2008, 87, 778-784.
[65]	Thielecke, F.; Rahn, G.; Bohnke, J.; Adams, F.; Birkenfeld, A. L.; Jordan, J.; Boschmann, M. Eur. J. Clin. Butr. 2010, 64, 704-713.
[66]	Sae-Tan, S.; Grove, K. A.; Kennett, M. J.; Lambert, J. D. Food Funct. 2011, 2, 111-116.
[67]	Chantre, P.; Lairon, D. Phytomedicine 2002, 9, 3-8.
[68]	Boschmann, M.; Thielecke, F. J. Am. Coll. Nutr. 2007, 26, 389-395.
[69]	Gosselin, C.; Haman, F. Br. J. Nutr. 2013, 110, 282-288.
[70]	Yasui, K.; Peng, N.; Miyoshi, N.; Suzuki, T.; Taguchi, K.; Ishigami, Y.; Ishigami, Y.; Fukutomi, R.; Imai, S.; Isemura, M.; Nakayama, T. Biomed. Res. 2012, 33, 9-13.
[71]	Lambers, S.; Van Laethem, C.; Van Zcker, K.; Calders, P. Clin. Rehabil. 2008, 22, 483-492.
[72]	Hill, A. M.; Coates, A. M.; Buckley, J. D.; Ross, R.; Thielecke, F.; Howe, P. R. J. Am. Coll. Nutr. 2007, 26, 396-402.
[73]	Smith, A. E.; Lockwood, C. M.; Moon, J. R.; Kendall, K. L.; Fukuda, D. H.; Tobkin, S. E.; Cramer, J. T.; Stout, J. R. Appl. Physiol. Nutr. Metab. 2010, 35, 607-616.
[74]	Mangine, G. T; Gonzalez, A. M.; Wells, A. J.; McCormack, W. P.; Fragala, M. S.; Stout, J. R.; Hoffman, J. R. Lipids Health Dis. 2012, 11, 127.
[75]	Fukino, Y.; Shimbo, M.; Aoki, N.; Okubo, T.; Iso, H. J. Nutr. Sci. Vitaminol (Tokyo) 2005, 51, 335-342.
[76]	Beaudoin, M. S.; Allen, B.; Mazzetti, G.; Sullivan, P. J.; Graham, T. E. Appl. Physiol. Nutr. Metab. 2013, 38, 140-147.
[77]	Brown, A. L.; Lane, J.; Coverly, J.; Stocks, J.; Jackson, S.; Stephen, A.; Bluck, L.; Coward, A.; Hendrickx, H. Br. J. Nutr. 2009, 101, 886-894.
[78]	Hsu, C. H.; Liao, Y. L.; Lin, S. C.; Tsai, T. H.; Huang, C. J.; Chou, P. Altern. Med. Rev. 2011, 16, 157-163.
[79]	Lin, J.; Della-Fera, M. A.; Baile, C. A. Obes. Res. 2005, 13, 982-990.
[80]	Hsieh, C. F.; Tsuei, Y. W.; Liu, C. W.; Kao, C. C.; Shih, L. J.; Ho, L. T.; Wu, L. Y.; Wu, C. P.; Tsai, P. H.; Chang, H. H.; Ku, H. C.; Kao, Y. H. Planta Med. 201076, 1694-1698.
[81]	Yasui, K.; Tanabe, H.; Miyoshi, N.; Suzuki, T.; Goto, S.; Taguchi, K.; Ishigami, Y.; Paeng, N.; Fukutomi, R.; Imai, S.; Isemura, M. Biomed. Res. 2011, 32, 313-320.
[82]	de Oliveira, C.; de Mattos, A. B.; Silva, C. B.; Mota, J. F.; Zemdgs, J. C. Vitam. Horm. 2012, 90, 57-94.
[83]	Fadini, G. P.; Ceolotto, G.; Pagnin, E.; de Kreutzenberg, S.; Acagaro, A. Aging Cell 2011, 10, 10-17.
[84]	Zarse, K.; Jabin, S.; Ristow, M. Eur. J. Nutr. 2012, 51, 765-768.
[85]	Spindler, S. R.; Mote, P. L.; Flegal, J. M.; Teter, B. Rejuvenation Res. 2013, 16, 143-151.
[86]	Oku, T.; Nakamura, M.; Takasugi, A.; Hashiguchi-Isoguro, M.; Tanabe, K.; Nakamura, S. Int. J. Food Sci. Nutr. 2009, 60, 224-231.
[87]	Strong, R.; Miller, R. A.; Astle, C. M.; Baur, J. A.; de Cabo, R.; Fernandez, E.; Guo, W.; Javors, M.; Kirkland, J. L.; Nelson, J. F.; Sinclair, D. A.; Teter, B.; Williams, D.; Zaveri, N.; Nadon, N. L.; Harrison, D. E. J. Gerontol. A Biol. Sci. Med. Sci. 201368, 6-16.
[88]	Kokaze, A.; Ishikawa, M.; Matsunaga, N.; Karita, K.; Yoshida, M.; Ohtsu, T.; Ochiai, H.; Shirasawa, T.; Saga, N.; Hoshino, H.; Takashima, Y. Hum. Biol. 2012, 84, 307-318
[89]	Kitani, K.; Osawa, T.; Yokozawa, T. Biogerontology 2007, 8, 567-573.
[90]	Abbas, S.; Wink, M. Planta Med. 2009, 75, 216-221.
[91]	Li, Y. M.; Chan, H. Y.; Yao, X. Q.; Huang, Y.; Chen, Z. Y. J. Nutr. Biochem. 2008, 19, 376-383.
[92]	Harris, E. S.; Cao, S.; Littlefield, B. A.; Craycroft, J. A.; Scholten, R.; Kaptchk, T.; Fu, Y.; Wang, W.; Liu, Y.; Chen, H.; Zhao, Z.; Clardy, J.; Woolf, A. D.; Eisenberg, D. M. Sci. Total Environ. 2011, 409, 4297-4305.
[93]	Yi, Z.; Zheng, L.; Guo, P.; Bi, J. Ecotoxicol. Environ. Saf. 2013, 91, 156-161.

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