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Downstream Carcinogenesis Signaling Pathways by Green Tea Polyphenols: A Translational Perspective of Chemoprevention and Treatment for Cancers

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Green tea is one of the most popular beverages around the world. For several decades, numerous epidemiological, preclinical and clinical studies have demonstrated that green tea polyphenols (GTPs), especially epigallocatechin-3-gallate (EGCG) have cancer-preventing effects on various cancers. In this review, we present inhibition of carcinogenesis in different animal models by GTPs or EGCG, including prostate cancer, bladder cancer, breast cancer, intestinal cancer, colon cancer, gastric cancer, lung cancer, oral cancer and skin cancer. In vitro studies showed that GTPs/EGCG potently induces apoptosis, cell cycle arrest and suppresses metastasis in tumor cells but not in their normal cell counterparts. The molecular mechanisms of these activities are discussed in detail to elucidate GTPs/EGCG downstream carcinogenesis signaling pathways and their values of perspective of chemoprevention and treatment for cancers.
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Keywords: Cancer; chemoprevention; green tea; polyphenols; treatment

Document Type: Research Article

Publication date: January 1, 2014

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  • Current Drug Metabolism aims to cover all the latest and outstanding developments in drug metabolism and disposition. The journal serves as an international forum for the publication of timely reviews in drug metabolism. Current Drug Metabolism is an essential journal for academic, clinical, government and pharmaceutical scientists who wish to be kept informed and up-to-date with the latest and most important developments. The journal covers the following areas:

    In vitro systems including CYP-450; enzyme induction and inhibition; drug-drug interactions and enzyme kinetics; pharmacokinetics, toxicokinetics, species scaling and extrapolations; P-glycoprotein and transport carriers; target organ toxicity and interindividual variability; drug metabolism and disposition studies; extrahepatic metabolism; phase I and phase II metabolism; recent developments for the identification of drug metabolites and adducts.
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