The Amoebicidal Activity of Diferrocenyl Derivatives: A Significant Dependence on the Electronic Environment.
Yanis Toledano-MagañaMario Néquiz-AvendañoLucía Margarita Valenzuela-SalasJessica J Sánchez-GarcíaRodrigo Galindo-MurilloJuan Carlos García-RamosElena I KlimovaPublished in: Molecules (Basel, Switzerland) (2023)
Amoebiasis is the second leading cause of death worldwide associated with parasitic disease and is becoming a critical health problem in low-income countries, urging new treatment alternatives. One of the most promising strategies is enhancing the redox imbalance within these susceptible parasites related to their limited antioxidant defense system. Metal-based drugs represent a perfect option due to their extraordinary capacity to stabilize different oxidation states and adopt diverse geometries, allowing their interaction with several molecular targets. This work describes the amoebicidal activity of five 2-( Z -2,3-diferrocenylvinyl)-4X-4,5-dihydrooxazole derivatives (X = H ( 3a ), Me ( 3b ), iPr ( 3c ), Ph ( 3d ), and benzyl ( 3e )) on Entamoeba histolytica trophozoites and the physicochemical, experimental, and theoretical properties that can be used to describe the antiproliferative activity. The growth inhibition capacity of these organometallic compounds is strongly related to a fine balance between the compounds' redox potential and hydrophilic character. The antiproliferative activity of diferrocenyl derivatives studied herein could be described either with the redox potential, the energy of electronic transitions, logP, or the calculated HOMO-LUMO values. Compound 3d presents the highest antiproliferative activity of the series with an IC 50 of 23 µM. However, the results of this work provide a pipeline to improve the amoebicidal activity of these compounds through the directed modification of their electronic environment.