Abstract

The inhibitory action of tea (Camellia sinenis) and tea components against carcinogenesis has been demonstrated in animal models. The overall goal of this program project is to elucidate the mechanisms of inhibition of carcinogenesis by tea and the active components involved. The common hypothesis is that tea polyphenols and caffeine, and their metabolites, inhibit carcinogenesis by suppressing cell proliferation and enhance apoptosis via modulating key signal transduction and metabolic pathways. The inhibition of AP-l related signaling pathways and arachidonic acid metabolism will receive major attention. A novel hypothesis to be tested is that tea consumption lowers body fat levels and this effect contributes to the inhibition of carcinogenesis. The themes of the three Projects are as follows: Project 1, """"""""Effects of Tea on the Formation and Growth of Skin Tumors,"""""""" will investigate the inhibition of skin carcinogenesis in UVB-induced high-risk mice by orally and topically applied tea, caffeine, and EGCG; the mechanisms of growth inhibition and apoptosis induction; and the role of """"""""lowering body fat levels"""""""" in anticarcinogenesis. Project 2, """"""""Inhibition of Lung Carcinogenesis and General Mechanistic Studies,"""""""" will study the entailed mechanisms in vivo and in vitro (especially on the inhibition of signal transduction kinases), the biotransformation and tissue levels of tea constituents, and the biological activities of key constituents and metabolites. Project 3, """"""""Modulation of Signal Transduction Pathways by Tea Components"""""""" will focus on mechanisms key? to the inhibition of cell transformation and apoptosis in cell lines by caffeine and polyphenols as well as their derivatives, using cell and molecular biology approaches. Facilitated by the """"""""Tea Chemistry and Analysis Core"""""""" and """"""""Administrative Core, """"""""the three Projects are highly interactive and integrated. Jointly, we intend to make major contributions to the use of tea for the I chemoprevention of cancer.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Cancer Institute (NCI)
Type
Research Program Projects (P01)
Project #
5P01CA088961-03
Application #
6653880
Study Section
Subcommittee G - Education (NCI)
Program Officer
Crowell, James A
Project Start
2001-09-17
Project End
2006-08-31
Budget Start
2003-09-19
Budget End
2004-08-31
Support Year
3
Fiscal Year
2003
Total Cost
$1,459,410
Indirect Cost

  Institution

Name
Rutgers University
Department
Biology
Type
Schools of Pharmacy
DUNS #
001912864
City
New Brunswick
State
NJ
Country
United States
Zip Code
08901

  Publications

Yang, Chung S; Zhang, Jinsong; Zhang, Le et al. (2016) Mechanisms of body weight reduction and metabolic syndrome alleviation by tea. Mol Nutr Food Res 60:160-74
Conney, Allan H; Lou, You-Rong; Nghiem, Paul et al. (2013) Inhibition of UVB-induced nonmelanoma skin cancer: a path from tea to caffeine to exercise to decreased tissue fat. Top Curr Chem 329:61-72
Inoue-Choi, Maki; Yuan, Jian-Min; Yang, Chung S et al. (2010) Genetic Association Between the COMT Genotype and Urinary Levels of Tea Polyphenols and Their Metabolites among Daily Green Tea Drinkers. Int J Mol Epidemiol Genet 1:114-123
Lambert, Joshua D; Kennett, Mary J; Sang, Shengmin et al. (2010) Hepatotoxicity of high oral dose (-)-epigallocatechin-3-gallate in mice. Food Chem Toxicol 48:409-16
Lee, Kyung Mi; Lee, Ki Won; Byun, Sanguine et al. (2010) 5-deoxykaempferol plays a potential therapeutic role by targeting multiple signaling pathways in skin cancer. Cancer Prev Res (Phila) 3:454-65
Kwon, Jung Yeon; Lee, Ki Won; Kim, Jong-Eun et al. (2009) Delphinidin suppresses ultraviolet B-induced cyclooxygenases-2 expression through inhibition of MAPKK4 and PI-3 kinase. Carcinogenesis 30:1932-40
Lee, Kyung Mi; Lee, Ki Won; Bode, Ann M et al. (2009) Tpl2 is a key mediator of arsenite-induced signal transduction. Cancer Res 69:8043-9
Bode, Ann M; Cho, Yong-Yeon; Zheng, Duo et al. (2009) Transient receptor potential type vanilloid 1 suppresses skin carcinogenesis. Cancer Res 69:905-13
Jung, Sung Keun; Lee, Ki Won; Byun, Sanguine et al. (2008) Myricetin suppresses UVB-induced skin cancer by targeting Fyn. Cancer Res 68:6021-9
Yang, Chung S; Sang, Shengmin; Lambert, Joshua D et al. (2008) Bioavailability issues in studying the health effects of plant polyphenolic compounds. Mol Nutr Food Res 52 Suppl 1:S139-51

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