This paper presents the effect of polyphenols on microorganisms inhabiting the human gastrointestinal tract (mainly bacteria belonging to the Lactobacillus genus) and pathogenic microorganisms classified as the most common food contaminants. Plant secondary metabolites have the ability to modulate the growth of many microorganisms. Due to the metabolic changes induced by their presence in the environment, many pathogenic microorganisms are unable to grow, which in turn cause a significant reduction in their pathogenic potential. These processes include primarily the induction of ruptures in the cell membrane and disturbance of cell respiration. Often, the lack of integrity of cell membranes also leads to the disturbance of intracellular homeostasis and leakage of cellular components, such as proteins, ATP molecules or intracellular ions. Autoxidizing polyphenols also act as pro-oxidative substances. Hydrogen peroxide formed in the process of oxidation of polyphenolic compounds acts as a bactericidal substance (by induction of DNA breaks). With regard to intestinal microbiota, polyphenols are considered prebiotic substances that increase the number of commensal bacteria. They can positively influence the growth of Lactobacillus bacteria, which have the ability to metabolize undigested antioxidants in the digestive tract of humans and animals. Depending on the pH of the environment and the presence of ions, plant polyphenols in the human digestive tract can act as substances with antioxidant potential or become pro-oxidants. Thus, combining functional food with polyphenols and Lactobacillus bacteria not only protects food products against the development of undesirable and pathogenic microbiota, but also has a positive effect on human health. The paper also describes the possibility of changes in the genome of Lactobacillus bacteria (under the influence of polyphenols) and the influence of Lactobacillus spp. bacteria on the antimicrobial properties of polyphenols. The enzymatic abilities of bacteria of the genus Lactobacillus, which influence the transformation of polyphenolic compounds, were also described.
Due to their richness of bioactive substances, rose hips are a valuable raw material for obtaining extracts with potential antimicrobial activity. The aim of the study was to determine the antagonistic potential of whole pseudo-fruit and flesh extracts of three Rosa sp. varieties against Staphylococcus spp. bacteria isolated as food contaminants. The biological material in this study consisted of seven strains of bacteria from the genus Staphylococcus. Two strains—Staphylococcus aureus ATCC 25923 and Staphylococcus epidermidis DSMZ 3270—were used as reference strains. The other five strains were food-derived isolates—S. epidermidis A5, S. xylosus M5, S. haemolyticus M6, S. capitis KR6, and S. warneri KR2A. The material was the pseudo-fruits of Rosa canina, Rosa pomifera Karpatia, and Rosa rugosa. The polyphenols were extracted from the fleshy part and the whole pseudo-fruit for all rose varieties. The tested preparations differed significantly in their polyphenol composition. The sum of polyphenols ranged from 28 862 to 35 358 mg/100 g of lyophilisate. The main groups of polyphenols found in the preparations were flavanols and ellagitannins. All of the tested extracts inhibited the growth of staphylococci at a concentration of 500 mg/mL. Rosa rugosa fruit extract showed the strongest antimicrobial properties among the studied extracts. For all the strains, the growth inhibition had a diameter of 20.3–29.0 mm. Moreover, six out of the seven tested strains showed the highest inhibition with the use of this extract. The MIC of rose extracts was in the range of 3.125–500 mg/mL and was strictly dependent on the bacterial species, the species of the rose, and the part of the fruit from which the extract was obtained. Correlations were assessed between the main groups of polyphenols in the extracts and their inhibition of bacterial growth. In the case of pseudo-fruit extracts, the inhibitory effect on bacterial growth positively correlated with the content of ellagitannins, and this effect was observed for almost all the tested strains. The results presented herein follow the current trend of minimising the use of chemical preservatives in food; from this point of view, rose extracts are very promising.
Antagonistic Activity of Lactic Acid Bacteria and Rosa rugosa Thunb. Pseudo-Fruit Extracts against Staphylococcus spp. Strains
Staphylococcus bacteria are ubiquitous microorganisms. They occur in practically all environments. They also show the ability to colonize the skin and mucous membranes of humans and animals. The current trend is to look for new natural factors (e.g., plant extracts rich in polyphenols) limiting the growth of undesirable bacteria in food and cosmetics or use as an adjunct in antibiotic therapy. The aim of this study was to evaluate the effect of extracts from Rosa rugosa Thunb. on the antagonistic properties of selected lactic acid bacteria strains in relation to Staphylococcus spp. isolates. The biological material consisted of seven strains of lactic acid bacteria (LAB) and seven strains of bacteria of the Staphylococcus genus. The anti-staphylococcal properties of the Rosa rugosa Thunb. pomace extracts (the tested extracts were characterized by a high content of polyphenols, namely 8–34 g/100 g DM/dm) were tested using the well method. The conducted research showed that the pomace extracts of the pseudo-fruit (Rosa rugosa Thunb.) had the ability to inhibit the growth of Staphylococcus spp. bacteria. The minimum concentration of polyphenols inhibiting the growth of staphylococci was in the range of 0.156–0.625 mg/mL. The conducted research showed that combined lactic acid bacteria and extracts from the pomace from the pseudo-fruit Rosa rugosa Thunb. (LR systems) may be factors limiting the growth of Staphylococcus spp. bacteria. As a result of the research, two-component antagonist systems consisting of LAB cultures and extracts from Rosa rugosa Thunb. pomace were developed, which effectively limited the growth of the test strains of Staphylococcus spp. In 41% of all tested cases, the zone of inhibition of growth of bacteria of the genus Staphylococcus spp. after the use of two-component antagonist systems was higher than that as a result of the control culture (without the addition of extracts).
Wpływ polifenoli z wytłoków z pseudoowoców Rosa rugosa Thunb. na wzrost bakterii z rodzaju Lactobacillus
Polifenole jako metabolity wtórne roślin stanowią podstawową barierę dla mikroflory uznanej za chorobotwórczą i patogenną (wirusy, grzyby, bakterie). Spożywane wraz z pokarmem zdolne są do wywołania wielu pozytywnych efektów w organizmach ssaków (zwierząt i człowieka) oraz ptaków. Przypisuje im się nie tylko właściwości przeciwutleniające, ale także obniżające ciśnienie, przeciwzapalne oraz przeciwdrobnoustrojowe. Tym samym niestrawione polifenole docierając do jelit w znacznym stopniu odpowiadają za modulację mikroflory jelitowej (w tym bakterii z rodzaju Lactobacillus). Jedną z roślin, która zawiera dużo związków polifenolowych jest Rosa rugosa Thunb. – jeden z najpopularniejszych gatunków dzikiej róży występujący na terenie Polski. Celem pracy była ocena potencjału prebiotycznego ekstraktów polifenolowych surowych i oczyszczonych otrzymanych z wytłoków z pseudoowoców Rosa rugosa Thunb. w stosunku do bakterii z rodzaju Lactobacillus (w tym szczepów o potwierdzonych właściwościach probiotycznych). Dominującymi grupami polifenoli obecnymi w ekstraktach były elagotaniny i procyjanidyny. W ekstraktach stwierdzono również obecność wolnego kwasu elagowego, flawonoli i wolnych katechin. Ponadto ekstrakty oczyszczone charakteryzowały się znacznie większą zawartością polifenoli w porównaniu z ekstraktami surowymi. Przeprowadzono również badania potencjału prebiotycznego zliofilizowanych ekstraktów w stosunku do bakterii z rodzaju Lactobacillus (w tym szczepu Lactobacillus brevis ŁOCK 0944 o potwierdzonych właściwościach probiotycznych). W badaniach zastosowano metodę turbidymetryczną. Potencjał prebiotyczny w stosunku do bakterii z rodzaju Lactobacillus wykazywały jedynie polifenole w stężeniu 0,156 mg/ml. Powyżej tego stężenia polifenole zawarte w wytłokach z pseudoowoców Rosa rugosa Thunb. działały jako czynnik ograniczający przyrost biomasy bakterii z rodzaju Lactobacillus.
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