Suppression by Flavonoids of Cyclooxygenase‐2 Promoter‐dependent Transcriptional Activity in Colon Cancer Cells: Structure‐Activity Relationship

Michihiro Mutoh; Mami Takahashi; Kazunori Fukuda; Hajime Komatsu; Takeji Enya; Yuko Matsushima‐Hibiya; Hiroshi Mutoh; Takashi Sugimura; Keiji Wakabayashi

doi:10.1111/j.1349-7006.2000.tb01000.x

. 2000 Jul;91(7):686–691. doi: 10.1111/j.1349-7006.2000.tb01000.x

Suppression by Flavonoids of Cyclooxygenase‐2 Promoter‐dependent Transcriptional Activity in Colon Cancer Cells: Structure‐Activity Relationship

Michihiro Mutoh ^1,², Mami Takahashi ², Kazunori Fukuda ³, Hajime Komatsu ¹, Takeji Enya ¹, Yuko Matsushima‐Hibiya ¹, Hiroshi Mutoh ², Takashi Sugimura ¹, Keiji Wakabayashi ^1,^✉

PMCID: PMC5926411 PMID: 10920275

Abstract

Cyclooxygenase‐2 (COX‐2) plays an important role in carcinogenesis. Investigation of the suppressive action of twelve flavonoids of different chemical classes on the transcriptional activity of the COX‐2 gene in human colon cancer DLD‐1 cells using a reporter gene assay have revealed quercetin to be the most potent suppressor of COX‐2 transcription (IC₅₀=10.5 μM), while catechin and epicatechin showed weak activity (IC₅₀=415.3 μM). Flavonoids have three heterocyclic rings as a common structure. A structure‐activity study indicated that the number of hydroxyl groups on the B ring and an oxo group at the 4‐position of the C ring are important in the suppression of COX‐2 transcriptional activity. A low electron density of the oxygen atom in the hydroxyl group of the A ring was also important. Further examination of the role of the hydroxyl group in the A ring showed that bromination of resacetophenone to give 3,5‐dibromo‐2,4‐dihydroxyacetophenone resulted in a 6.8‐fold increase in potency for suppressing COX‐2 promoter activity. These results provide a basis for the design of improved suppressors of COX‐2 transcriptional activity.

Keywords: Cyclooxygenase‐2, Colon cancer, Reporter gene assay, Flavonoids, Electron density

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REFERENCES

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[b1] 1. ) Middleton , E. , Jr. and Kandaswami , C.Effect of flavonoids on immune and inflammatory cell functions . Biochem. Pharmacol. , 43 , 1167 – 1179 ( 1992. ). [DOI] [PubMed] [Google Scholar]

[b2] 2. ) Wattenberg , L. W.Inhibition of carcinogenesis by minor dietary constituents . Cancer Res. , 52 , 2085S – 2091S ( 1992. ). [PubMed] [Google Scholar]

[b3] 3. ) Ferriola , P. C. , Cody , V. and Middleton , E.Protein kinase C inhibition by plant flavonoids. Kinetic mechanisms and structure‐activity relationships . Biochem. Pharmacol. , 38 , 1617 – 1624 ( 1989. ). [DOI] [PubMed] [Google Scholar]

[b4] 4. ) Agullo , G. , Gamet‐Payrastre , L. , Manenti , S. , Viala , C. , Remesy , C. , Chap , H. and Payrastre , B.Relationship between flavonoid structure and inhibition of phosphatidylinositol 3‐kinase: a comparison with tyrosine kinase and protein kinase C inhibition . Biochem. Pharmacol. , 53 , 1649 – 1657 ( 1997. ). [DOI] [PubMed] [Google Scholar]

[b5] 5. ) Loll , P. J. and Garavito , R. M.The isoforms of cyclooxygenase: structure and function . Expert Opin. Invest. Drugs , 3 , 1171 – 1180 ( 1994. ). [Google Scholar]

[b6] 6. ) Herschman , H. R.Prostaglandin synthase 2 . Biochim. Biophys. Acta , 1299 , 125 – 140 ( 1996. ). [DOI] [PubMed] [Google Scholar]

[b7] 7. ) Eberhart , C. E. , Coffey , R. J. , Radhike , A. , Giardiello , F. M. , Ferrenbach , S. and Dubois , R. N.Up‐regulation of cyclooxygenase 2 gene expression in human colorectal adenomas and adenocarcinomas . Gastroenterology , 107 , 1183 – 1188 ( 1994. ). [DOI] [PubMed] [Google Scholar]

[b8] 8. ) Sano , H. , Kawahito , Y. , Wilder , R. L. , Hashiramoto , A. , Mukai , S. , Asai , K. , Kimura , S. , Kato , H. , Kondo , M. and Hla , T.Expression of cyclooxygenase‐1 and ‐2 in human colorectal cancer . Cancer Res. , 55 , 3785 – 3789 ( 1995. ). [PubMed] [Google Scholar]

[b9] 9. ) Elder , D. J. and Paraskeva , C.COX‐2 inhibitors for colorectal cancer . Nat. Med. , 4 , 392 – 393 ( 1998. ). [DOI] [PubMed] [Google Scholar]

[b10] 10. ) Kawamori , T. , Rao , C. V. , Seibert , K. and Reddy , B. S.Chemopreventive activity of celecoxib, a specific cyclooxygenase‐2 inhibitor, against colon carcinogenesis . Cancer Res. , 58 , 409 – 412 ( 1998. ). [PubMed] [Google Scholar]

[b11] 11. ) Nakatsugi , S. , Fukutake , M. , Takahashi , M. , Fukuda , K. , Isoi , T. , Taniguchi , Y. , Sugimura , T. and Wakabayashi , K.Suppression of intestinal polyp development by nimesulide, a selective cyclooxygenase‐2 inhibitor, in Min mice . Jpn. J. Cancer Res. , 88 , 1117 – 1120 ( 1997. ). [DOI] [PMC free article] [PubMed] [Google Scholar]

[b12] 12. ) Fukutake , M. , Nakatsugi , S. , Isoi , T. , Takahashi , M. , Ohta , T. , Mamiya , S. , Taniguchi , Y. , Sato , H. , Fukuda , K. , Sugimura , T. and Wakabayashi , K.Suppressive effect of nimesulide, a selective inhibitor of cyclooxygenase‐2, on azoxymethane‐induced colon carcinogenesis in mice . Carcinogenesis , 19 , 1939 – 1942 ( 1998. ). [DOI] [PubMed] [Google Scholar]

[b13] 13. ) Mutoh , M. , Takahashi , M. , Fukuda , K. , Matsushita‐Hibiya , Y. , Mutoh , H. , Sugimura , T. and Wakabayashi , K.Suppression of cyclooxygenase‐2 promoter‐dependent transcriptional activity in colon cancer cells by chemopreventive agents with a resorcin‐type structure . Carcinogenesis , 21 , 959 – 963 ( 2000. ). [DOI] [PubMed] [Google Scholar]

[b14] 14. ) Enya , T. , Suzuki , H. and Hisamatsu , Y.Reaction of benzanthrone (7H‐benz[d, e]anthracen‐7‐one) with nitrogen dioxide alone or admixture with ozone. Implications for the atmospheric formation of genotoxic 3‐nitrobenzanthrone . Bull. Chem. Soc. Jpn. , 71 , 2221 – 2228 ( 1998. ). [Google Scholar]

[b15] 15. ) Dewar , M. J. S. , Zoebisch , E. G. , Healy , E. F. and Stewart , J. J. P.AM‐1: a new general purpose quantum mechanical molecular model . J. Am. Chem. Soc. , 107 , 3902 – 3909 ( 1985. ). [Google Scholar]

[b16] 16. ) Matsumoto , N. , Kohri , T. , Okushio , K. and Hara , Y.Inhibitory effects of tea catechins, black tea extract and oolong tea extract on hepatocarcinogenesis in rat . Jpn. J. Cancer Res. , 87 , 1034 – 1038 ( 1996. ). [DOI] [PMC free article] [PubMed] [Google Scholar]

[b17] 17. ) Steele , V. E. , Pereira , M. A. , Sigman , C. C. and Kellof , G. J.Cancer chemoprevention agent development strategies for genistein . J. Nutr. , 125 , 713S – 716S ( 1995. ). [DOI] [PubMed] [Google Scholar]

[b18] 18. ) Pereira , M. A. , Barnes , L. H. , Rassman , V. L. , Kelloff , G. V. and Steele , V. E.Use of azoxymethane‐induced foci of aberrant crypts in rat colon to identify potential cancer chemopreventive agents . Carcinogenesis , 15 , 1049 – 1054 ( 1994. ). [DOI] [PubMed] [Google Scholar]

[b19] 19. ) Holland , M. B. and Roy , D.Estrone‐induced cell proliferation and differentiation in the mammary gland of the female Noble rat . Carcinogenesis , 16 , 1955 – 1961 ( 1995. ). [DOI] [PubMed] [Google Scholar]

[b20] 20. ) Deschner , F. E. , Ruperto , J. , Wong , G. and Newmark , H. L.Quercetin and rutin as inhibitors of azoxymethanol‐induced colonic neoplasia . Carcinogenesis , 12 , 1193 – 1196 ( 1991. ). [DOI] [PubMed] [Google Scholar]

[b21] 21. ) Miller , N. J.The relative antioxidant activities of plantderived polyphenolic flavonoids . In“Natural Antioxidants and Food Quality in Atherosclerosis and Cancer Prevention ,” ed. Kumpulainen J. T. and Salonen J. T. , pp. 256 – 259 ( 1996. ). The Royal Society of Chemistry; , Cambridge . [Google Scholar]

[b22] 22. ) Rossi , M. , Rickles , L. F. and Halpin , W. A.The crystal molecular structure of quercetin: a biologically active and naturally occurring flavonoid . Bioorg. Chem. , 14 , 55 – 69 ( 1986. ). [Google Scholar]

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Suppression by Flavonoids of Cyclooxygenase‐2 Promoter‐dependent Transcriptional Activity in Colon Cancer Cells: Structure‐Activity Relationship

Michihiro Mutoh

Mami Takahashi

Kazunori Fukuda

Hajime Komatsu

Takeji Enya

Yuko Matsushima‐Hibiya

Hiroshi Mutoh

Takashi Sugimura

Keiji Wakabayashi

Abstract

Full Text

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PERMALINK

Suppression by Flavonoids of Cyclooxygenase‐2 Promoter‐dependent Transcriptional Activity in Colon Cancer Cells: Structure‐Activity Relationship

Michihiro Mutoh

Mami Takahashi

Kazunori Fukuda

Hajime Komatsu

Takeji Enya

Yuko Matsushima‐Hibiya

Hiroshi Mutoh

Takashi Sugimura

Keiji Wakabayashi

Abstract

Full Text

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