Study of antioxidant activity of fodder grasses using microbial test systems.

AIM: To measure the biological activities of extracts of fodder grasses Onobrýchis arenária, Galéga orientális and Rhaponticum carthamoides that are commonly planted in Europe, Middle East and eastern Africa. METHODS AND RESULTS: Microbial test-systems based on Escherichia coli BW25113 that allow measurement of gene expression, growth and survival, biofilm formation (BF) in combination with the standard chemical procedures were used. The extracts studied had radical scavenging and metal-chelating activities and induced expression of antioxidant genes via generation of hydrogen peroxide. However, the extracts did not affect bacterial growth in planktonic cultures but dose-dependently inhibited BF. CONCLUSIONS: The most remarkable effects were observed in G. orientalis, a high-yielding crop, rich in crude protein and fibres. SIGNIFICANCE AND IMPACT OF THE STUDY: Taking into account the antibiofilm activities of the extracts, a perspective for decreasing colonization of ruminants' gut with pathogenic bacteria might be suggested in case of feeding with all the grasses studied.

Tannic and gallic acids alter redox-parameters of the medium and modulate biofilm formation.

Tannic (TA) and gallic (GA) acids are known to have both anti- and prooxidant properties however recently they have been described as potential anti-biofilm agents although their mechanisms of action on bacterial cells remain obscure. The aim of our research was to elucidate the role of prooxidant actions of these plant phenolic compounds in bactericidal effects and biofilm formation. In our experiments, both compounds demonstrated strong oxidative properties that altered activity of stress regulons and contributed to decrease of CFU and ability of cells to maintain membrane potential. Stimulation of biofilm formation was observed in all the strains with the exception of the strains deficient in flagella synthesis. Both compounds demonstrated bactericidal effect which was weakened in biofilms. TA efficiently killed bacteria in the bioflms of pgaA mutant which pointed out an important role of poly-beta-1,6-N-acetyl-D-glucosamine (PGA) polysaccharide in matrix formation. Similar effects of TA in recA mutant indicate involvement of SOS-response into reaction towards exposure with TA. Gallic acid-induced killing was more pronounced in the biofilms of csgA mutant revealing role of curli in protection against GA toxicity.