In Vitro Analysis of Antimalarial Activity of Achillea fragrantissima (Forssk.) Sch.Bip Extracts Based on Beta-Hematin Formation

Abstract

Introduction: The use of medicinal plants from traditional knowledge systems has increased in recent years. Achillea fragrantissima-infused water has a historical use in relieving gastrointestinal complaints and treating skin inflammations. With the rising resistance to antimalarial drugs, finding safe and affordable new drugs is crucial. Exploring medicinal plants shows promise for drug development in the fight against malaria. Methods: The objective of this research is to examine the in vitro antimalarial activity of A. fragrantissima-infused water, as well as water-ethanol extracts of its leaves, flowers, and stems based on β-hematin formation. Colorimetric semiquantitative assessments based on β-hematin inhibition and evaluation of optical density at 405 nm were employed. Results: The results demonstrated promising antimalarial activity of the different plant parts. The aqueous flower extract exhibited strong activity, comparable to that of the positive control. The leaves extract also showed strong antimalarial activity. The stem's aqueous and ethanolic extracts exhibited lower inhibitory activity compared to flowers and leaves. Synergistic antimalarial activity was observed when mixing the stem and leaves water extracts, as well as when mixing each of the stem and leaves extracts with the flower extract. The highest synergistic effect was observed when all three parts of the plant were mixed, resulting in activity comparable to the positive control. The high-performance liquid chromatography photodiode array (HPLC-PDA) chromatographic method confirmed the presence of rutin in the leaves extract. Conclusion: The findings of this study highlight the potential antimalarial activity of A. fragrantissima. The aqueous flower extract and leaves extract exhibited strong antimalarial activity, while the stem extracts showed relatively lower activity. Furthermore, synergistic effects were observed when combining different parts of the plant. These results suggest that A. fragrantissima holds promise as a potential source for the development of new antimalarial drugs. The confirmation of rutin presence in the leaves extract through HPLC-PDA analysis provides additional insights into the plant's chemical composition.