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THE USE OF NATURAL SUBSTANCES OF PLANT ORIGIN FOR
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THE USE OF NATURAL SUBSTANCES OF PLANT ORIGIN FOR
THE PRODUCTION OF PROMISING ANTIBACTERIAL DRUGS Pavel A. Nazarov, Marina V. Karakozova Belozersky Institute of Physico-Chemical Biology, Lomonosov Moscow State University, Moscow, Russia Antibiotic resistance is a global problem of modern medicine. Multidrug resistance (MDR) pumps, involved in the formation of resistance to xenobiotics, the export of toxins, the maintenance of cellular homeostasis, and the formation of biofilms and persistent cells, are the keystone of bacterial protection against antibiotics. MDR pumps are the basis for the nonspecific protection of bacteria. Thus, the nonspecific protection of bacteria formed by MDR pumps is a barrier that prevents the penetration of antibacterial substances into the cell, which is the main factor determining the resistance of bacteria. Plant extracts are promising sources of new antimicrobials. The key aspect is the penetration of antibacterial substances of plant origin into the bacterial cell through the protective barrier from the MDR pumps. In this paper, we investigate the role of MDR pumps in protecting bacteria from antibiotics containing components of plant origin in order to elucidate the principles of selection of such compounds by MDR pumps. We tested various compounds such as berberine, plastoquinone, palmatine, carvone and limonene for gram-positive and gram- negative bacteria. We also used well-known antibiotics and antibacterial agents, such as chloramphenicol, triphenylphosphonium derivatives, rhodamine derivatives. We analyzed various deletion mutants for MDR pumps and established the role of pumps in biofilm formation and, at the expense of pumps, in protecting bacteria from antibiotics and herbal substances. We compared the antimicrobial action of antibiotics and herbal substances Gram- negative bacteria E. coli by using standard 2-fold broth microdilution assays in identical conditions. We used various sub-lethal concentrations and incubation times with antibiotics and herbal substances to determine which pumps are influencing biofilm formation. To assess how compounds affect biofilm formation we evaluated the effects of a substances on biofilm formation as a change in the ratio of planktonic and sessile forms of bacteria by means crystal violet staining. To determine the number of surviving cells in the biofilm, we determined the CFU for each mutant by the MDR pump, which differed from the wild type in activity. The originally floating form of the bacteria has evolved into a fully sessile biofilm form under pressure of some herbal substances. Moreover, in the form of a biofilm, a slow growth of bacteria was observed, which confirmed our assumption about the survival of bacteria due to the growth of the bacterial population in the composition of the biofilm. It is interesting that a number of substances were not recognized by MDR pumps, which suggests the presence of plant molecules "invisible" to bacteria that could be used in antibiotic therapy. This research was funded by Russian Science Foundation (RSF) grant 22-15-00099. Yüklə 5,12 Mb. Dostları ilə paylaş:
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