Search Results (3)

The effective response of antibiotics is threatened by the proliferation of micro-organisms that manifest resistance mechanisms, leading to an increase of progressively untreatable infectious diseases around the world. One solution to this problem could lie in shifting the strategy from searching for new antibacterials to discovering new compounds that potentiate the antimicrobial activity of current antibiotics, therefore reverting resistance, through the interference with several mechanisms including biofilm formation and efflux pumps (EPs). Using bis(2,3-dibromo-4,5-dihydroxybenzyl) ether (BDDE) as a template, a macroalgae brominated bromophenol with antimicrobial activity, a series of 18 chalcone derivatives was prepared and evaluated for its antimicrobial activity and potential to fight antibiotic resistance. This includes seven chalcones, six dihydrochalcones and five diarylpropanes. Among them, two chalcones exhibited interesting antifungal activity and all compounds reversed resistance to vancomycin in the environmental isolate Enterococcus faecalis B3/101. Three compounds caused a four-fold decrease in the minimum inhibitory concentration (MIC) values of vancomycin against E. faecalis. All the dihydrochalcones and diarylpropanes displayed inhibition of EPs and biofilm formation in the tested multidrug-resistant strain, suggesting that these compounds are EP inhibitors. Notably, dihydrochalcones and diarylpropanes did not show cytotoxicity in a mouse embryonic fibroblast cell line and they can potentially be regarded as hits for bacterial EP inhibition. Full article

A number of stilbenoid and chalconoid derivatives were prepared by straightforward methods, and their ability to modulate tyrosinase activity and to scavenge free radicals were evaluated in vitro. The cell-free in vitro evaluation revealed two diarylpropanes, 24 and 25, as potent tyrosinase inhibitors, whereas diarylpropenoic acids seemed to enhance the enzymatic activity. An in silico evaluation of the binding affinity of the selected compounds with the crystal structure of tyrosinase was also conducted in order to obtain better insight into the mechanism. Representative synthetic compounds with inhibitory and activating properties were further evaluated in melanoma cell lines B16F1 and B16F10 for their ability to moderate tyrosinase activity and affect melanin production. Dihydrostilbene analogues I and II, exhibited a stronger anti-melanogenic effect than kojic acid through the inhibition of cellular tyrosinase activity and melanin formation, while diarylpropanoic acid 44 proved to be a potent melanogenic factor, inducing cellular tyrosinase activity and melanin formation. Moreover, the antioxidant evaluation disclosed two analogues (29 and 11) with significant free-radical-scavenging activity (12.4 and 20.3 μM), which were 10- and 6-fold more potent than ascorbic acid (122.1 μΜ), respectively. Full article

The growing number of infectious diseases around the world threatens the effective response of antibiotics, contributing to the increase in antibiotic resistance seen as a global health problem. Currently, one of the main challenges in antimicrobial drug discovery is the search for new compounds that not only exhibit antimicrobial activity, but can also potentiate the antimicrobial activity and revert antibiotics’ resistance, through the interference with several mechanisms, including the inhibition of efflux pumps (EPs) and biofilm formation. Inspired by macroalgae brominated bromophenol BDDE with antimicrobial activity, a series of 18 chalcone derivatives, including seven chalcones (9–15), six dihydrochalcones (16–18, and 22–24) and five diarylpropanes (19–21, and 25 and 26), was prepared and evaluated for its antimicrobial activity and potential to fight antibiotic resistance. Among them, chalcones 13 and 14 showed promising antifungal activity against the dermatophyte clinical strain of Trichophyton rubrum, and all compounds reversed the resistance to vancomycin in Enterococcus faecalis B3/101, with 9, 14, and 24 able to cause a four-fold decrease in the MIC of vancomycin against this strain. Compounds 17–24 displayed inhibition of EPs and the formation of biofilm by S. aureus 272123, suggesting that these compounds are inhibiting the EPs responsible for the extrusion of molecules involved in biofilm-related mechanisms. Interestingly, compounds 17–24 did not show cytotoxicity in mouse embryonic fibroblast cell lines (NIH/3T3). Overall, the results obtained suggest the potential of dihydrochalcones 16–18 and 22–24, and diarylpropanes 19–21, 25 and 26, as hits for bacterial EPs inhibition, as they are effective in the inhibition of EPs, but present other features that are important in this matter, such as the lack of antibacterial activity and cytotoxicity. Full article