New Derivatives of Chalcones, Chromenes, and Stilbenoids, Complexed with Methyl-β-Cyclodextrin with Antioxidant Properties and Antibacterial Synergism with Antibiotics

Cyclodextrins (CDs) are natural cyclic oligosaccharides with the ability to form inclusion complexes with various organic substances. In this paper, we investigate the potential of CD complex formation to enhance the antibacterial activity and antioxidant properties of poorly soluble bioactive agents, such as chalcones, chromenes, stilbenoids and xanthylium derivatives, serving as potential adjuvants, in comparison with standard antiseptics. The interaction of these bioactive agents with the hydrophobic pocket of methyl-β-cyclodextrin (MCD) was confirmed using spectroscopic methods such as UV-vis, FTIR, 1H and 13C NMR, mass-spectrometry. CD-based delivery system allows for combining multiple active agents, improving solubility, antibacterial efficacy by enhancing penetration into target bacterial cells (E. coli selectivity demonstrated via confocal microscopy). Novel compounds of chalcones and stilbenoids derivatives additionally enhance efficacy by inhibiting bacterial efflux pumps, increasing membrane permeability, and inhibiting bacterial enzymes, and showed a synergy when used in combination with metronidazole. The intricate relationship between the structural characteristics and functional properties of chalcones and stilbenoids in terms of their antibacterial and antioxidative capabilities is revealed. The substituents within aromatic rings significantly influence this activity, where position of electron-donating methoxy groups playing a crucial role. Among chalcones, stilbenoids, ana xanthyliums, the compounds caring a benzodioxol ring, analogous to natural bioactive compounds like apiol, dillapiol, and myristicin, emerge as prominent antibacterial activity. To explore the possibility to create theranostic formulations, we used fluorescent markers to visualize target cells, antiseptics to provide antibacterial activity, and bioactive agents as chalcones acting as adjuvants. Additionally, new antioxidant compounds were found such as Xanthylium derivative (R351) and chromene derivative: 1-methyl-3-(2-amino-3-cyano-7-methoxychromene-4-yl)-pyridinium methanesulfate: the pronounced antioxidant properties of these substances are observed comparable to quercetin in the efficiency. Rhodamine 6G, gentian violet, and Congo Red exhibit good antioxidant properties, although their activity is an order of magnitude lower than that of quercetin. However, they have remarkable potential due to their multifaceted nature, including the ability to visualize target cel