Antioxidant and antifungal activities of marrubiin, extracts and essential oil from Marrubium vulgare L. against pathogenic dermatophyte strains.

OBJECTIVE: Medicinal plants extracts and plant-derived compounds are one of the natural sources for discovering new antifungal agents, the objectives of this work were to investigate for the first time the antidermatophytic, antipathogenic activities of methanol, acetone extracts, and essential oil of Marrubium vulgare L. grown in Tunisia and its active compound marrubiin on pathogenic for animals and humans, such as some dermatophytes and pathogenic for plants, and to evaluate antioxidant activities of different extracts with consideration to their chemical compositions. MATERIAL AND METHODS: Acetone and methanol extracts were evaluated by HPLC, the essential oil was also analyzed by GC/MS. PCL assay was used to determine the antioxidant activity. RESULTS: Results showed that methanol and acetone extracts exhibited a significant antioxidant activity (261.41 and 272.90µmol TE/g respectively), while the lowest one was observed in the case of marrubiin and essential oil. The antifungal activity of different extracts, marrubiin and essential oil at two concentrations (20 and 100µg/mL) were screened against the dermatophytes fungi Microsporum gypseum, Microsporum canis, Arthroderma cajetani, Trichophyton mentagrophytes, Trichophyton tonsurans, Epidermophyton floccosum and against two fungi strains (Botrytis cinerea, Pythium ultimum). Among tested extracts, marrubiin at 100µg/mL showed about 50% inhibition for T. mentagrophytes and E. floccosum. The anti-phytopathogenic activity was also carried out, only marrubiin had in activity against B. cinerea at the highest dose (32.40%), while methanol extract of M.vulgare and marrubiin are able to increase the mycelial growth of P. ultimum at the highest concentration (45.15 and 40.30% respectively). CONCLUSION: In our study, we conclude that M.vulgare and marrubiin can be used as natural antioxidants and antifungal agent for treatment of skin dermatophyte infections.

Zinc-directed inhibitors for zinc proteinases.

Zinc proteinases have been recognized as a distinct class of proteolytic enzymes in which at least one ion of zinc is involved directly in catalysis. This family includes a growing number of biologically important enzymes which are attractive targets for rational drug design. In this paper we examine the special features of the zinc binding environment of these enzymes in order to gain information which could be useful in the preparation of 'zinc-directed' selective inhibitors. Carboxypeptidase A (CPA) is presented as a model for one class of zinc proteinases, and the active-site zinc and its interactions are examined with the primary focus on geometrical considerations. The three-dimensional structure of the native and apoenzyme are discussed, together with the high-resolution structure of several enzyme-inhibitor complexes. This paper will first present a structural analysis of CPA derivatives and then discuss a series of zinc model compounds which have been prepared and characterized in order to examine the ligand and geometrical preferences of the zinc in an unstrained system. X-ray crystallography (macromolecular and small molecule) is the main experimental method used for the structural analyses, while complementary computational methods have been used for the examination of electrostatic potentials. The results from the various experimental efforts are assembled in order to draw general conclusions on the potential use of the zinc ion as the primary target for inhibitor binding. The results of these studies suggest that the zinc ion is important for both the binding and the catalytic activation of the substrate as well as for stabilization of the tetrahedral reaction intermediate.