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Rimonabant inhibits human colon cancer cell growth and reduces the formation of precancerous lesions in the mouse colon

✍ Scribed by Antonietta Santoro; Simona Pisanti; Claudia Grimaldi; Angelo A. Izzo; Francesca Borrelli; Maria C. Proto; Anna M. Malfitano; Patrizia Gazzerro; Chiara Laezza; Maurizio Bifulco

Publisher: John Wiley and Sons
Year: 2009
Tongue: French
Weight: 301 KB
Volume: 125
Category: Article
ISSN: 0020-7136
DOI: 10.1002/ijc.24483

No coin nor oath required. For personal study only.

✦ Synopsis

Abstract

The selective CB1 receptor antagonist rimonabant (SR141716) was shown to perform a number of biological effects in several pathological conditions. Emerging findings demonstrate that rimonabant exerts antitumor action in thyroid tumors and breast cancer cells. In our study, human colorectal cancer cells (DLD‐1, CaCo‐2 and SW620) were treated with rimonabant and analyzed for markers of cell proliferation, cell viability and cell cycle progression. Rimonabant significantly reduced cell growth and induced cell death. In addition, rimonabant was able to alter cell cycle distribution in all the cell lines tested. Particularly, rimonabant produced a G2/M cell cycle arrest in DLD‐1 cells without inducing apoptosis or necrosis. The G2/M phase arrest was characterized by a parallel enhancement of the number of mitoses associated to elevated DNA double strand breaks and chromosome misjoining events, hallmarks of mitotic catastrophe. Protein expression analyses of Cyclin B1, PARP‐1, Aurora B and phosphorylated p38/MAPK and Chk1 demonstrated that rimonabant‐induced mitotic catastrophe is mediated by interfering with the spindle assembly checkpoint and the DNA damage checkpoint. Moreover, in the mouse model of azoxymethane‐induced colon carcinogenesis, rimonabant significantly decreased aberrant crypt foci (ACF) formation, which precedes colorectal cancer. Our findings suggest that rimonabant is able to inhibit colorectal cancer cell growth at different stages of colon cancer pathogenesis inducing mitotic catastrophe in vitro. © 2009 UICC.

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