Flavonoids and a Sesquiterpene Lactone from Tanacetum microphyllum Inhibit Anti-Inflammatory Mediators in LPS-Stimulated Mouse Peritoneal Macrophages

María José Abad; Paulina Bermejo; María Alvarez; José Antonio Guerra; Ana María Silván; Angel Maria Villar

doi:10.1055/s-2004-815452

Planta Medica, Table of Contents

Planta Med 2004; 70(1): 34-38
DOI: 10.1055/s-2004-815452

Original Paper

Pharmacology
© Georg Thieme Verlag Stuttgart · New York

Flavonoids and a Sesquiterpene Lactone from Tanacetum microphyllum Inhibit Anti-Inflammatory Mediators in LPS-Stimulated Mouse Peritoneal Macrophages

María José Abad¹ , Paulina Bermejo¹ , María Alvarez¹ , José Antonio Guerra¹ , Ana María Silván¹ , Angel Maria Villar¹

¹Department of Pharmacology, Faculty of Pharmacy, University Complutense, Madrid, Spain

Abstract

In our ongoing research into anti-inflammatory compounds from Tanacetum microphyllum, four naturally occurring flavonoids (santin, ermanin, centaureidin and 5,3′-dihydroxy-4′-methoxy-7-methoxycarbonylflavonol) and one sesquiterpene lactone (hydroxyachillin) isolated from this plant, were evaluated as potential inhibitors of some macrophage functions involved in the inflammatory process. These five compounds significantly inhibited lipopolysaccharide (LPS)-induced nitric oxide (NO) and prostaglandin E₂ (PGE₂) in a concentration-dependent manner. In the tumour necrosis factor-α (TNF-α) assay, only centaureidin and hydroxyachillin significantly inhibited the accumulation of TNF-α. These results indicate that these compounds may contribute to the anti-inflammatory properties of T. microphyllum.

Key words

Tanacetum microphyllum - Compositae - lipopolysaccharide - prostaglandin E₂ - nitric oxide - tumour necrosis factor-α

Full Text

References

1 Abad M J, Bermejo P, Villar A. An approach to the genus Tanacetum L. (Compositae): phytochemical and pharmacological review. Phytother Res. 1995; 9 79-92
2 Schinella G R, Giner R M, Recio M C, De Buschiazo P M, Rios J L, Mañez S. Anti-inflammatory effects of South American Tanacetum vulgare . J Pharm Pharmacol. 1998; 50 1069-74
3 Williams C A, Harborne J B, Geiger H, Robin J, Hoult S. The flavonoids of Tanacetum parthenium and T. vulgare and their anti-inflammatory properties. Phytochemistry. 1999; 51 417-23
4 Fukuda K, Hibiya Y, Mutoh M, Ohno Y, Yamashita K, Akao S. et al . Inhibition by parthenolide of phorbol ester-induced transcriptional activation of inducible nitric oxide synthase gene in a human monocyte cell line THP-1. Biochem Pharmacol. 2000; 60 595-600
5 Kwok B HB, Koh B, Ndubuisi M I, Elofsson M, Crews C M. The anti-inflammatory natural product parthenolide from the medicinal herb feverfew directly binds to and inhibits IkappaB kinase. Chem Biol. 2001; 8 759-66
6 Abad M J, Bermejo P, Villar A. Anti-inflammatory and anti-ulcerogenic activities of the organic extracts of Tanacetum micropyllum DC in rats. Phytother Res. 1991; 5 179-81
7 Abad M J, Bermejo P, Villar A. Valverde S Anti-inflammatory activity of two flavonoids from Tanacetum microphyllum . J Nat Prod. 1993; 56 1164-7
8 Abad M J, Bermejo P, Valverde S, Villar A. Anti-inflammatory activity of hydroxyachillin, a sesquiterpene lactone from Tanacetum microphyllum . Planta Med. 1994; 60 228-31
9 Silván A M, Abad M J, Bermejo P, Villar A. Inhibition by hydroxyachillin, sesquiterpene lactone from Tanacetum microphyllum, of PMA-induced mouse ear oedema. Inflamm Res. 1996; 45 289-92
10 Martínez J, Silván A M, Abad M J, Bermejo P, Villar A, Söllhuber M. Isolation of two flavonoids from Tanacetum microphyllum as PMA-induced ear edema inhibitors. J Nat Prod. 1997; 60 142-4
11 Silván A M, Abad M J, Bermejo P, Villar A. Effects of compounds extracted from Tanacetum microphyllum on arachidonic acid metabolism in cellular systems. Planta Med. 1998; 64 200-3
12 Pradelles P, Antoine C, Lellouche J P, Maclouf J. Enzyme immunoassays for leukotriene C₄ and E₄ using acetylcholinesterase. Meth Enzymol. 1990; 187 82-9
13 Green L C, Wagner D A, Glogowski J, Skipper P L, Wishnok J J, Tannenbaun S R. Analysis of nitrate, nitrite and [¹⁵N] nitrate in biological fluids. Anal Biochem. 1982; 126 131-8
14 Appleton I, Tomlinson A, Willoughby D A. Induction of cyclo-oxygenase and nitric oxide synthase in inflammation. In: August JT, Anders MW, Murad F, Coyle JT editors Advances in Pharmacology. New York; Academic Press 1996: pp 26-78
15 Vane J R, Bakle Y S, Botting R M. Cyclooxygenases 1 and 2. Ann Rev Pharmacol Toxicol. 1998; 38 97-120
16 Xie Q, Nathan C. The high-output nitric oxide pathway: role and regulation. J Leukocyte Biol. 1994; 56 576-82
17 Lee H J, Kim N Y, Jang M K, Son H J, Kim K M, Sohn D H. et al . A sesquiterpene, dehydrocostus lactone, inhibits the expression of inducible nitric oxide synthase and TNF-α in LPS-activated macrophages. Planta Med. 1999; 65 104-8
18 Koo T H, Lee J H, Park Y J, Hong Y S, Kim H S, Kim K W. et al . A sesquiterpene lactone, costunolide from Magnolia grandiflora, inhibits NF-KB by targeting IKB phosphorylation. Planta Med. 2001; 67 103-7

Dr. María José Abad Martínez

Department of Pharmacology

Faculty of Pharmacy

University Complutense

28040 Madrid

Spain

Fax: +34-1-3941726

Email: mjabad@farm.ucm.es