Targeting Tumor Ubiquitin-Proteasome Pathway with Polyphenols for Chemosensitization | Bentham Science
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Anti-Cancer Agents in Medicinal Chemistry

Editor-in-Chief

ISSN (Print): 1871-5206
ISSN (Online): 1875-5992

Targeting Tumor Ubiquitin-Proteasome Pathway with Polyphenols for Chemosensitization

Author(s): Min Shen, Tak Hang Chan and Q. Ping Dou

Volume 12, Issue 8, 2012

Page: [891 - 901] Pages: 11

DOI: 10.2174/187152012802649978

Price: $65

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Abstract

The development of tumor drug resistance is one of the biggest obstacles on the way to achieve a favorable outcome of chemotherapy. Among various strategies that have been explored to overcome drug resistance, the combination of current chemotherapy with plant polyphenols as a chemosensitizer has emerged as a promising one. Plant polyphenols are a group of phytochemicals characterized by the presence of more than one phenolic group. Mechanistic studies suggest that polyphenols have multiple intracellular targets, one of which is the proteasome complex. The proteasome is a proteolytic enzyme complex responsible for intracellular protein degradation and has been shown to play an important role in tumor growth and the development of drug resistance. Therefore, proteasome inhibition by plant polyphenols could be one of the mechanisms contributing to their chemosensitizing effect. Plant polyphenols that have been identified to possess proteasome-inhibitory activity include (-)-epigallocatechins-3-gallate (EGCG), genistein, luteolin, apigenin, chrysin, quercetin, curcumin and tannic acid. These polyphenols have exhibited an appreciable effect on overcoming resistance to various chemotherapeutic drugs as well as multidrug resistance in a broad spectrum of tumors ranging from carcinoma and sarcoma to hematological malignances. The in vitro and in vivo studies on polyphenols with proteasome-inhibitory activity have built a solid foundation to support the idea that they could serve as a chemosensitizer for the treatment of cancer. In-depth mechanistic studies and identification of optimal regimen are needed in order to eventually translate this laboratory concept into clinical trials to actually benefit current chemotherapy.

Keywords: Polyphenols, Flavonoids, EGCG, Genistein, Curcumin, Structure-activity relationship, Ubiquitin-proteasome pathway, Proteasome inhibitors, Bortezomib, Chemotherapy, Drug resistance, NF-κB, Bcl-2, Chemosensitization, Clinical trials


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