Planta Med 2003; 69(5): 472-474
DOI: 10.1055/s-2003-39698
Letter
© Georg Thieme Verlag Stuttgart · New York

Antioxidant Activity of Maslinic Acid, a Triterpene Derivative Obtained from Olea europaea

M. Pilar Montilla1 , Ahmad Agil2 , M. Concepción Navarro1 , M. Isabel Jiménez1 , Andrés García-Granados3 , Andrés Parra3 , M. Matilde Cabo1
  • 1Department of Pharmacology, Faculty of Pharmacy, University of Granada, Spain
  • 2Department of Pharmacology & Biotechnology Institute, Faculty of Medicine, University of Granada, Spain
  • 3Department of Organic Chemistry, Faculty of Sciences, University of Granada, Spain
Further Information

Publication History

Received: September 12, 2002

Accepted: December 7, 2002

Publication Date:
12 June 2003 (online)

Abstract

We investigated the effect of maslinic acid (a triterpene derivative obtained from olive pomace), on the susceptibility of plasma or hepatocyte membranes to lipid peroxidation (LPO), induced respectively by the hydroxyl radical (OH.) generated by Fe2+/H2O2 ex vivo and by the system Fe3+/ascorbate in vitro; moreover, three groups of animals used in the plasma study were pretreated with CCl4 (to generate CCl3 -.). Endogenous plasma lipoperoxide levels and susceptibility to LPO were decreased in rats treated with maslinic acid, after exposure to OH. by Fe2+/H2O2 (Fenton reaction). Co-incubation with maslinic acid prevented hepatocyte membrane LPO as shown by the reduction of TBARS. In conclusion, maslinic acid may offer some advantages in the resistance of oxidative stress in the animals.

References

  • 1 Liu J. Pharmacology of oleanolic acid and ursolic acid.  J Ethnopharm. 1995;  49 57-68
  • 2 Jeong H G. Inhibition of cytochrome P450 2E1 expression by oleanolic acid: hepatoprotective effects against carbon tetrachloride-induced hepatic injury.  Toxicol Lett. 1999;  105 215-22
  • 3 Xu H X, Zeng F Q, Wan M, Sim K Y. Anti-HIV triterpene acids from Geum japonicun .  J Nat Prod. 1996;  59 643-5
  • 4 Kim Y K, Yoon S K, Ryu S Y. Cytotoxic triterpenes from stem bark of Physocarpus intermedius .  Planta Med. 2000;  66 485-6
  • 5 Agil A, Fuller C J, Jialal I. Susceptibility of plasma to ferrous iron/hydrogen peroxide-mediated oxidation: demonstration of a possible Fenton reaction.  Clin Chem. 1995;  41 220-5
  • 6 Finkel T, Holbrook N J. Oxidants, oxidative stress and the biology of ageing.  Nature. 2000;  408 239-46
  • 7 Ginsburg G S, Agil A, O’Toole M, Rimm E, Douglas P S, Rifai N. Effects of a single bout of ultraendurance exercise on lipid levels and susceptibility of lipids to peroxidation in triathletes.  JAMA. 1996;  276 221-5
  • 8 Recknagel R O. A new direction in the study of carbon tetrachloride hepatotoxicity.  Life Sci. 1983;  33 401-8
  • 9 Comporti M. Lipid peroxidation and cellular damage in toxic liver injury.  Lab Invest. 1985;  53 599-623
  • 10 Navarro M C, Montilla M P, Martín A, Jiménez J, Utrilla M P. Free radical scavenger and antihepatotoxic activity of Rosmarinus tomentosus .  Planta Med. 1993;  59 312-4
  • 11 Yagi K. Lipid peroxides and human diseases.  Chem Phys. 1987;  45 337-51
  • 12 De la Cruz J P, Carrasco T, Ortega G, Sanchez de la Cuesta F. Inhibition of ferrous-induced lipid peroxidation by pyrimido-pyrimidine derivatives in human liver membranes.  Lipids. 1992;  27 192-4

Dra. M. Pilar Montilla

Department of Pharmacology

Faculty of Pharmacy

University of Granada

18071 Granada

Spain

Fax: +34-958-248964