Mechanism of persistence of indigenous bifidobacteria under the impact of acetate in the human colon biotope

Aim. To determine the role of the acetate in the persistence of indigenous bifidobacteria in the colon biotope through the lysozyme resistance in model conditions of the acetylation–deacetylation of peptidoglycan. Materials and methods. The study was performed on 16 strains of the two indigenous bifidobacteria speсies: Bifidobacterium bifidum и Bifidobacterium longum subsp. longum. Bifidobacteria was cultivated in the 0.6% O2 and 9% CO2 atmosphere at the temperature 37ºС in CO2 incubator for 48 hours. The production of the acetate by the bifidobacteria was determined by gas chromatography. The effect of the acetate on the lysozyme resistance of non-indigenous gram-positive bacteria was determined on the Listeria monocytogenes ICIS-280 model strain by the cultivation in LB-Lennox broth with ammonium acetate added in the concentration range matching the concentrations produced by the studied bifidobacteria, in lysozyme serial dilutions at final concentrations 5 μg/ml to 40 μg/ml within 24 hours. Results. It was found that the acetate release of Bifidobacterium longum subsp. longum was on average two times higher that of Bifidobacterium bifidum (27.0 and 14.7 mmol/liter, respectively) and was quite consistent with the concentrations of acetic acid determined in the intestinal contents (up to 50 mmol/liter). Cultivation of bifidobacteria in a medium with lysozyme, ammonium acetate and their combination did not have a significant impact on their growth parameters at the maximum used concentrations of these substances. In the test strain, the addition of ammonium acetate in the range created by bifidobacteria caused a decrease in the minimum inhibitory concentration of lysozyme by more than two times — from 40 μg/ml to less than 20 μg/ml. In the control medium without lysozyme, no inhibition of the growth of the indicator culture was observed up to the maximum concentrations of ammonium acetate. Conclusion. The mechanism of persistence (survival) of indigenous bifidobacteria in the human intestinal biotope has been identified, which is associated with the production of acetic acid at a level that selectively suppresses lysozyme resistance of non-indigenous gram-positive microbiota viareversible deacetylation of peptidoglycan. This allows indigenous bifidobacteria to maintain a stable dominant position in the biotope.