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5,5′-Dibromo-bis(3′-indolyl)methane induces Kruppel-like factor 4 and p21 in colon cancer cells : 5,5′-Dibromo-bis(3′-indolyl)methane induces Krüppel-like factor 4 and p21 in colon cancer cells

Cited 16 time in Web of Science Cited 15 time in Scopus
Authors

Cho, Sung Dae; Chintharlapalli, Sudhakar; Abdelrahim, Maen; Papineni, Sabitha; Liu, Shengxi; Guo, Jingjing; Lei, Ping; Abudayyeh, Ala; Safe, Stephen

Issue Date
2008-07
Publisher
American Association for Cancer Research
Citation
Molecular Cancer Therapeutics, Vol.7 No.7, pp.2109-2120
Abstract
Bis(3'-indolyl)methane (DIM) is a metabolite of the phytochemical indole-3-carbinol, and both compounds exhibit a broad spectrum of anticancer activities. We have developed a series of synthetic symmetrical ring-substituted DIM analogues, including 5,5'-dibromoDIM, which are more potent than DIM as inhibitors of cancer cell and tumor growth. In colon cancer cells, 5,5'-dibromoDIM decreased cell proliferation and inhibited G(0)-G(1)- to S-phase progression, and this was accompanied by induction of the cyclin-dependent kinase inhibitor p21 in HT-29 and RKO colon cancer cells. Mechanistic studies showed that induction of p21 in both RKO (p53 wild-type) and HT-29 (p53 mutant) cells by 5,5'-dibromoDIM was Kruppel-like factor 4 (KLF4) dependent, and induction of p53 in RKO cells was also KLF4 dependent. Analysis of the p21 promoter in p53-dependent RKO cells showed that 5,5'-dibromoDIM activated p21 gene expression through the proximal GC-rich sites 1 and 2, and chromatin immunoprecipitation assays showed that KLF4 and p53 bound to this region of the promoter, whereas in HT-29 cells unidentified upstream cis-elements were required for induction of p21. 5,5'-DibromoDIM (30 mg/kg/d) also inhibited tumor growth and induced p21 in athymic nude mice bearing RKO cells as xenografts, showing that ring-substituted DIM such as 5,5'-dibromoDIM represent a novel class of mechanism-based drugs for clinical treatment of colon cancer.
ISSN
1535-7163
URI
https://hdl.handle.net/10371/208982
DOI
https://doi.org/10.1158/1535-7163.MCT-07-2311
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  • School of Dentistry
  • Department of Dentistry
Research Area Discovery of molecular targets related to oral cancer metastasis and identification of signal transduction system, Identifying the role of immunological tolerance in oral cancer, Presenting a new concept oral cancer prevention and treatment strategy through identification of major molecular targets and mechanisms related to oral cancer development, 구강암 발병관련 주요 분자표적 및 기전 규명을 통한 신개념 구강암 예방 및 치료전략 제시, 구강암 전이관련 분자표적 발굴 및 신호전달체계 규명, 구강암에서 면연관용의 역할 규명

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