ABSTRACT
Moroccan medicinal plants exhibit several pharmacological properties such as antimicrobial,anticancer,antidiabetic,analgesic,and anti-inflammatory effects,which are related to the presence of numerous bioactive compounds,including phenolic acids,flavonoids,and terpenoids.In the present review,we systematically evaluate previously published reports on the anti-inflammatory and analgesic effects of Moroccan medicinal plants.The in vitro investigations revealed that Moroccan medicinal plants inhibit several enzymes related to inflammatory processes,whereas in vivo studies noted significant anti-inflammatory and analgesic effects as demonstrated using different experimental models.Various bioactive compounds exhibiting in vitro and in vivo anti-inflammatory and analgesic effects,with diverse mechanisms of action,have been identified.Some plants and their bioactive compounds reveal specific secondary metabolites that possess important anti-inflammatory effects in clinical investigations.Our review proposes the potential applications of Moroccan medicinal plants as sources of anti-inflammatory and analgesic agents.
ABSTRACT
The aim of this study was to investigate antibacterial activity of Origanum compactum essential oils collected at three phenological stages on Escherichia coli and Bacillus subtilis. The antibacterial activity was evaluated using the agar-well diffusion assay. The MIC and MBC values were determined using the micro-dilution assay. The investigation of the antibacterial action was carried out by the evaluation of the effect of O. compactum essential oils on the antibacterial kinetic growth, the integrity of cell membrane and permeability of the cell membrane. The anti-quorum sensing activity was tested by the inhibition of the biofilm formation. The findings of this study showed that O. compactum essential oil has potent antibacterial activities against E. coli and B. subtilis. The lowest inhibition value against B. subtilis was obtained with O. compactum essential oil at the post-flowering stage (MIC = MBC = 0.0312% (v/v)). The antibacterial mechanisms of O. compactum essential oils are related to the disturbing of the cell mem-brane integrity and the increasing of the membrane permeability, which leads to the leakage of genetic materials (DNA and RNA). Moreover, O. compactum essential oils inhibited the formation of the biofilms, a phenotype that has been known to be quorum sensing regulated.
ABSTRACT
Aims: The aim of this study was to evaluate the in vitro cytotoxic activity and cellular effects of organic extracts and fractions of four plants; Inula viscosa, Ormenis eiriolepis (Asteraceae), Retama monosperma (Fabaceae) and Marrubium vulgare (Lamiaceae), all of them used in Moroccan traditional medicine. Methodology: The four plants were extracted using organic solvents and screened on a panel of human cancer cell lines including cell types from both solid and haematological cancer origin as well as non-transformed murine fibroblasts. Cell viability assays were performed with sixteen plant extracts. Sensitive cell lines were then exposed to increasing concentrations of the most efficient extracts in order to calculate IC50 values. Microscopy, flow cytometry and caspase activity assays were then performed in LN229, SW620 and PC-3 cell lines upon treatment to investigate the cell morphology, cell cycle distribution and cell death. Results: cell viability assays reveals that at least one extract from each plant was able to exert cytotoxic activity against the majority of cell lines tested, the IC50 values of the active extracts were in most cases ≤ 30 μg/ml. the study of the cellular effects of the most active extracts on LN229, SW620 and PC-3 cell lines shows their ability to promote cell cycle arrest and cell death. The data obtained herein support strongly the use of these plants by traditional healers for the treatment of cancer patients and could have some scientific support indicating the presence of bioactive compounds. Conclusion: The reported biological activity of these four medicinal plants used in traditional Moroccan medicine provides a starting point for forthcoming studies to determine the molecular basis of their activity and to identify the chemical compounds within the most active extracts responsible for their antitumoral effects.