Abstract
The misuse and abuse of antibiotics have led to the increase of drug resistance and the emergence of multi-drug resistant bacteria. Therefore, it is an urgent need to develop novel antimicrobial agents to address this problem. Natural products (NPs) could provide an effective strategy for the discovery of drug due to their wide range of source and biological activities. Ursolic acid (UA) is a naturally occurring compound known for its wide range of biological properties. In this study, a series of UA derivatives were rationally designed and synthesized by incorporating antibacterial potential fragments of benzenesulfonamide and indole, with the aim of obtaining novel UA derivatives for the treatment of bacterial infections. Based on the preliminary screening, UA derivatives 27 (yield of 26 %), containing 4-chlorobenzenesulfonamide and 6-carboxyindole pharmacophores, as well as 34 (yield of 42 %), containing 4-carboxybenzenesulfonamide and unsubstituted indole pharmacophores, were identified as promising antibacterial agents against Staphylococcus aureus, especially for methicillin-resistant Staphylococcus aureus (MRSA), possessing MICs of 1 μM. Furthermore, both of them also displayed low hemolytic activity, non-resistance, and low-toxicity to mammalian cells. In addition, further mechanistic studies revealed that 27 and 34 were able to inhibit and eliminate MRSA biofilm formation, affecting the permeability of bacterial cell membrane, leading to increase intracellular reactive oxygen species (ROS) and ultimately inducing bacterial death. Notably, 27 and 34 also showed promising in vivo efficacy against MRSA in a mouse wound model. These results suggested that 27 and 34 should have promising applications against MRSA infection.
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