Download PDF
Planta Med 2012; 78(3): 225-229
DOI: 10.1055/s-0031-1280371
Biological and Pharmacological Activity
Original Papers
© Georg Thieme Verlag KG Stuttgart · New York

9β-Hydroxyparthenolide Esters from Inula montbretiana and Their Antiprotozoal Activity

Alper Gökbulut1 [*] , Marcel Kaiser2 , Reto Brun2 , Engin Sarer1 , Thomas J. Schmidt3 [#]
  • 1Ankara University, Faculty of Pharmacy, Department of Pharmacognosy, Ankara, Turkey
  • 2Swiss Tropical and Public Health Institute (STPH) and University of Basel, Basel, Switzerland
  • 3Institute of Pharmaceutical Biology and Phytochemistry (IPBP), University of Münster, Münster, Germany
Further Information

Publication History

received Sept. 6, 2011 revised October 18, 2011

accepted October 28, 2011

Publication Date:
22 November 2011 (online)

    Permissions and Reprints

Abstract

In continuation of ongoing studies on the potential of natural products as antiprotozoal leads or drugs, it was found that the CH2Cl2 extract obtained from the flowering aerial parts of Inula montbretiana DC. (Asteraceae, tribe Inuleae) displays antiprotozoal activity, especially against Trypanosoma brucei rhodesiense (IC50: 3.38 µg/mL). Isolation of the possible active constituents led to the identification of six sesquiterpene lactones, all esters of 9β-hydroxyparthenolide. Two isolates, namely, 9β-(3′,4′-epoxy-3′-methylpentanoyloxy)-parthenolide and 9β-(3′-oxo-2′-methylbutanoyloxy)-parthenolide, represented diastereomeric mixtures differing only in the configuration within the acyl moieties. According to in vitro test results, the mixture of esters with diastereomeric 3,4-epoxy-3-methylpentanoic acid was the most active constituent against Trypanosoma brucei rhodesiense (IC50: 0.26 µg/mL) and was less cytotoxic against rat skeletal myoblasts (L6 cell line) with a selectivity index of about 9. The mixture of diastereomeric 2-methyl-3-oxobutyric acid esters was the most potent against Plasmodium falciparum (IC50: 1.48 µg/mL) and displayed a selectivity index of about 35.

Key words

Inula montbretiana DC. - Asteraceae - sesquiterpene lactone - 9-β-acyloxyparthenolide - antiprotozoal activity - Trypanosoma - Leishmania - Plasmodium

Supporting Information

References

  • 1 Topçu G, Öksüz S, Shieh H-L, Cordell G A, Pezzuto J M, Bozokjohansson C. Cytotoxic and antibacterial sesquiterpenes from Inula graveolens.  Phytochemistry. 1993;  33 407-410
    Google Scholar
  • 2 Song Q H, Kobayashi T, Iijima K, Hong T, Cyong J C. Hepatoprotective effects of Inula britannica on hepatic injury in mice.  Phytother Res. 2000;  14 180-186
    Google Scholar
  • 3 Zhao Y-M, Zhang M-L, Shi Q-W, Kiyota H. Chemical constituents of plants from the genus Inula.  Chem Biodivers. 2006;  3 371-384
    Google Scholar
  • 4 Marco J A, Sanz-Cervera J F, Manglano E. Chlorinated thymol derivatives from Inula crithmoides.  Phytochemistry. 1993;  33 875-878
    Google Scholar
  • 5 Shao Y, Bai N-S, Zhou B-N. Kaurane glycosides from Inula britannica.  Phytochemistry. 1996;  42 783-786
    Google Scholar
  • 6 Zarga M H A, Hamed E M, Sabri S S, Voelter W, Zeller K-P. New sesquiterpenoides from the Jordanian medicinal plant Inula viscosa.  J Nat Prod. 1998;  61 798-800
    Google Scholar
  • 7 Su B-N, Takaishi Y, Yabuuchi T, Kusumi T, Tori M, Takaoka S, Honda G, Ito M, Takeda Y, Kodzhımatov O K, Ashurmetov O. Sesquiterpenes and monoterpenes from the bark of Inula macrophylla.  Chem Nat Prod. 2001;  64 466-471
    Google Scholar
  • 8 Kalsi P S, Goyal R, Talwar K K, Chhabra B R. Stereostructures of two biologically active sesquiterpene lactones from Inula racemosa.  Phytochemistry. 1989;  28 2093-2096
    Google Scholar
  • 9 Yang C, Wang C-M, Jia Z-J. Sesquiterpenes and other constituents from the aerial parts of Inula japonica.  Planta Med. 2003;  69 662-666
    Google Scholar
  • 10 Xie H-G, Chen H, Cao B, Zhang H-W, Zou Z M. Cytotoxic germacranolide sesquiterpene from Inula cappa.  Chem Pharm Bull. 2007;  55 1258-1260
    Google Scholar
  • 11 Nour A M M, Khalid S A, Kaiser M, Brun R, Abdallah W E, Schmidt T J. The antiprotozoal activity of sixteen Asteraceae species native to Sudan and bioactivity-guided isolation of xanthanolides from Xanthium brasilicum.  Planta Med. 2009;  75 1363-1368
    Google Scholar
  • 12 Schmidt T J, Nour A M M, Khalid S A, Kaiser M, Brun R. Quantitative structure-antiprotozoal activity relationships of sesquiterpene lactones.  Molecules. 2009;  14 2062-2076
    Google Scholar
  • 13 Maas M, Hensel A, da Costa F B, Brun R, Kaiser M, Schmidt T J. An unusual dimeric guaianolide with antiprotozoal activity and further sesquiterpene lactones from Eupatorium perfoliatum.  Phytochemistry. 2011;  72 635-644
    Google Scholar
  • 14 Harvala E, Aligiannis N, Skaltsounis A-L, Pratsinis H, Lambrinidis G, Harvala C, Chinou I. Cytotoxic germacranolides from Inula verbascifolia subsp. methanea.  J Nat Prod. 2002;  65 1045-1048
    Google Scholar
  • 15 Stöcklin W, Waddell T G, Geissman T A. Circular dichroism and optical rotatory dispersion of sesquiterpene lactones.  Tetrahedron. 1970;  26 2397-2410
    Google Scholar
  • 16 Ahmed A A, Mohamed Ael-H, Tzakouc O, Petropoulou A, Hassan M E, El-Maghraby M A, Zeller K-P. Terpenes from Inula verbascifolia.  Phytochemistry. 2003;  62 1191-1194
    Google Scholar

1 Part of thesis. The phytochemical part of this work was performed at the Institute of Pharmaceutical Biology and Phytochemistry, Münster, in March – May 2010.

2 In memory of Dr. rer. nat. Detlef A. W. Wendisch, formerly Abt. ZF-DZA Strukturforschung, Bayer AG, Leverkusen, deceased on July 24, 2011.

Prof. Dr. Thomas J. Schmidt

Institute of Pharmaceutical Biology and Phytochemistry (IPBP)
University of Münster

Hittorfstraße 56

48149 Münster

Germany

Phone: +49 25 18 33 33 78

Fax: +49 25 18 33 83 41

Email: thomschm@uni-muenster.de

>