Abstract
Among natural substances widespread in fruits, vegetables, spices, and medicinal plants, flavonoids and organic acids belong to the promising groups of bioactive compounds with strong antioxidant and anti-inflammatory properties. The aim of the present work was to evaluate the antibacterial activity of 13 common flavonoids (flavones, flavonols, flavanones) and 6 organic acids (aliphatic and aromatic acids). The minimal inhibitory concentrations (MICs) of selected plant substances were determined by the micro-dilution method using clinical strains of four species of pathogenic bacteria. All tested compounds showed antimicrobial properties, but their biological activity was moderate or relatively low. Bacterial growth was most strongly inhibited by salicylic acid (MIC = 250–500 μg/mL). These compounds were generally more active against Gram-negative bacteria: Escherichia coli and Pseudomonas aeruginosa than Gram-positive ones: Enterococcus faecalis and Staphylococcus aureus. An analysis of the antibacterial effect of flavone, chrysin, apigenin, and luteolin showed that the presence of hydroxyl groups in the phenyl rings A and B usually did not influence on the level of their activity. A significant increase in the activity of the hydroxy derivatives of flavone was observed only for S. aureus. Similarly, the presence and position of the sugar group in the flavone glycosides generally had no effect on the MIC values.
Highlights
Screening biological studies of chemical compounds of natural origin allow for assessment of their activity and determine further research stages in order to search for new therapeutic solutions based on active compounds known in plants
Huang et al [84] observed that kaempferol inhibits the DNA PriA helicase of S. aureus, and these results showed that the concentration of phosphate from ATP hydrolysis by this DNA helicase was decreased to 37% in the presence of 35 μM kaempferol
We showed that glycosides of flavonoids have some antibacterial effects (Table 2)
Summary
Screening biological studies of chemical compounds of natural origin allow for assessment of their activity and determine further research stages in order to search for new therapeutic solutions based on active compounds known in plants. This is especially important during the observed increasing resistance of bacteria and fungi to antibiotics. It is well known that plant extracts and other herbal products are complex mixtures containing the wide variety of primary and secondary metabolites, and their action may be the result of the synergy of different chemical components.
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