Possible implication of oxidative stress in anti filarial effect of certain traditionally used medicinal plants in vitro against Brugia malayi microfilariae

Introduction: Tropical disease research scheme of World Health Organization has duly recognized traditional medicine as alternative for antifilarial drug development. Polyphenolic compounds present in traditionally used herbal medicines are natural antioxidants; however, paradoxically they may exert pro-oxidant effect. Popular drug diethyl carbamazine citrate harnesses the innate inflammatory response and the consequent oxidative assault to combat invading microbes. Methods: With this perspective, extracts of Vitex negundo L. (roots), Butea monosperma L. (leaves), Aegle marmelos Corr. (leaves), and Ricinus communis L. (leaves) were selected to explore the possible role of oxidative rationale in the antifilarial effect in vitro. Results: Apart from the last, other three plant extracts were reported to have polyphenolic compounds. Dose-dependent increase was found in the levels of lipid peroxidation and protein carbonylation for all the three plant extracts except Ricinus communis L. (leaves). Such increase in oxidative parameters also showed some degree of plant-specific predilection in terms of relatively higher level of particular oxidative parameter. High degree of correlation was observed between the antifilarial effect and the levels of corresponding oxidative stress parameters for these three plants. However, extracts of Ricinus communis L. (leaves) which is relatively deficient in polyphenolic ingredients recorded maximum 30% loss of motility and also did not show any significant difference in various stress parameters from corresponding control levels. Conclusion: These results reveal that targeted oxidative stress might be crucial in the pharmacodynamics.

[1]  M. Shuaib,et al.  Phytochemical investigation of the seeds of Butea monosperma , 2010, Chemistry of Natural Compounds.

[2]  K. Goswami,et al.  Novel pharmaceutical rationale against human lymphatic filarial parasite: an oxidative premise. , 2009 .

[3]  S. Meshram,et al.  In vitro effect of four herbal plants on the motility of Brugia malayi microfilariae. , 2008, The Indian journal of medical research.

[4]  S. Meshram,et al.  Anti-microfilarial activity of methanolic extract of Vitex negundo and Aegle marmelos and their phytochemical analysis. , 2008, Indian journal of experimental biology.

[5]  Helen F. McGarry,et al.  Diethylcarbamazine activity against Brugia malayi microfilariae is dependent on inducible nitric-oxide synthase and the cyclooxygenase pathway , 2005, Filaria journal.

[6]  Mike Saltmarsh,et al.  Polyphenols: antioxidants and beyond. , 2005, The American journal of clinical nutrition.

[7]  A. Jassbi,et al.  Antioxidant Study and Assignments of NMR Spectral Data for 3′,4′,7-Trihydroxyflavanone 3′,7-Di-O-β-D-glucopyranoside (Butrin) and Its Hydrolyzed Product , 2004, Chemistry of Natural Compounds.

[8]  Shripad M Upasani,et al.  Partial characterization and insecticidal properties of Ricinus communis L foliage flavonoids. , 2003, Pest management science.

[9]  C. Peixoto,et al.  The effects of diethylcarbamazine on the ultrastructure of microfilariae of Wuchereria bancrofti , 2003, Parasitology.

[10]  G. Cordell,et al.  Cytotoxic flavone analogues of vitexicarpin, a constituent of the leaves of Vitex negundo. , 2003, Journal of natural products.

[11]  A. Vollmar,et al.  Red Wine Polyphenols Enhance Endothelial Nitric Oxide Synthase Expression and Subsequent Nitric Oxide Release From Endothelial Cells , 2002, Circulation.

[12]  Hiroshi Sakagami,et al.  Antioxidant and prooxidant action of eugenol-related compounds and their cytotoxicity. , 2002, Toxicology.

[13]  S. Chakrabarti,et al.  Lipid peroxidation associated protein damage in rat brain crude synaptosomal fraction mediated by iron and ascorbate , 2001, Neurochemistry International.

[14]  M. Kitamura,et al.  Oxidant-induced apoptosis of glomerular cells: intracellular signaling and its intervention by bioflavinoid. , 1999, Kidney international.

[15]  S. P. Sinha Babu,et al.  Enhancement of membrane damage by saponins isolated from Acacia auriculiformis. , 1997, Japanese journal of pharmacology.

[16]  T. Buttke,et al.  Oxidative stress as a mediator of apoptosis. , 1994, Immunology today.

[17]  S. Sakuta,et al.  Serum lipid peroxide in cerebrovascular disorders determined by a new colorimetric method. , 1978, Clinica chimica acta; international journal of clinical chemistry.