Antimicrobial Effect of Lippia citriodora Extract in Combination with Gallic Acid or Octyl Gallate on Bacteria from Meat.

Chicken meat and its derivatives are easily alterable. They are a nutritionally healthy food, and their consumption has seen a remarkable increase worldwide in recent years. At the same time, consumer demand for the use of natural products to control microbial growth is increasing. In this context, the antimicrobial capacity of a commercial extract of the lemon verbena (Lippia citriodora) plant, (LCE) was tested in binary combination with gallic acid or octyl gallate against two strains of lactic acid bacteria (LAB) of meat origin: Carnobacterium divergens ATCC 35677 and Leuconostoc carnosum ATCC 49367. First, the antimicrobial potential was evaluated by the checkerboard microdilution method at the optimal growth temperature of each and at 4 °C, pH 5.7 and 6.7, in culture medium. Octyl gallate was the most effective antimicrobial against the two bacteria under all study conditions. At 4 °C, the combination of LCE with octyl gallate had a similar antimicrobial effect on the two LAB, being bactericidal at pH 6.7. In chicken breast, this effective combination was tested in normal or modified atmosphere and refrigerated (4-8 °C) for 9 days. LCE + OG in modified atmosphere reduced the different microbial groups studied, including the lactic acid bacteria as the main microorganisms responsible for the spoilage of fresh meat. Further research could pave the way for the development of novel strategies contributing to the technological stability, security, and functional properties of chicken meat.

Synergistic Antimicrobial Effect of a Lippia citriodora Natural Extract with Vanillin against Verotoxigenic Escherichia coli in Refrigerated Piel de Sapo Melon Juice.

ABSTRACT: The antimicrobial activity of a commercial Lippia citriodora extract (LCE) at 2,500 µg mL-1 (maximum sensory acceptable level) and vanillin (MIC and 2 MIC) alone and in combination were analyzed in four strains of Escherichia coli (two nonverotoxigenic and two verotoxigenic) in cation-adjusted Mueller-Hinton medium and in Piel de Sapo melon juice (MJ) stored under refrigeration (4°C) for 7 days. The bacterial counts of the four strains together in untreated samples were higher (≈4 log CFU/mL) in cation-adjusted Mueller-Hinton medium than in stored MJ. LCE showed higher antimicrobial activity in MJ than in standard culture broth, but vanillin showed a higher effect in broth. The verotoxigenic strain E. coli O146:H stx2 was the most sensitive to LCE in refrigerated MJ. Combinations of vanillin (at MIC and 2 MIC) with LCE were very effective in reducing E. coli counts either in broth or in refrigerated MJ to undetectable levels. Bactericidal effects were observed for the combinations in all strains in broth and in MJ. Also, these combinations showed an antimicrobial synergistic effect after day 3 of storage in MJ in three of the bacterial strains tested. These results indicate that the combination of LCE (at maximum sensory acceptable levels) and vanillin (at low concentrations) could be considered as a promising natural antimicrobial agent to inhibit verotoxigenic E. coli growth in refrigerated MJ and improve its quality.

The Beneficial Effects of Lippia Citriodora Extract on Diet-Induced Obesity in Mice Are Associated with Modulation in the Gut Microbiota Composition.

SCOPE: Obesity is characterized by a dysfunction in the adipose tissue and an inflammatory subclinical state leading to insulin resistance and increased risk of cardiovascular diseases. It is also associated with intestinal dysbiosis that contributes to inflammation development. Lippia citriodora (LCE) contains high levels of polyphenolpropanoids and has shown promising results in obesity. The aim of this study is to investigate a well-characterized extract of LCE in a model of metabolic syndrome in mice, focusing on its effects on metabolic tissues, endothelial dysfunction, and microbiome. METHODS: Mice are fed a high fat diet (HFD) for six weeks and treated daily with LCE (1, 10, and 25 mg kg-1 ). Glucose and lipid metabolism is investigated. The inflammatory state in the metabolic tissues and the intestinal microbiota composition are characterized, as well as the endothelium-dependent vasodilator response to acetylcholine. RESULTS: LCE reduces fat accumulation and improves plasma glycemic and lipid profiles, as well as the inflammatory process and vascular dysfunction. Moreover, LCE lessens intestinal dysbiosis, as it reduces the Firmicutes/Bacteroidetes ratio and increases Akkermansia abundance in comparison with untreated HFD mice. CONCLUSION: The antiobesity therapeutic properties of LCE are most probably mediated by the synergic effects of its bioactive compounds.

Antimicrobial efficacy of Lippia citriodora natural extract against Escherichia coli and Enterococcus faecalis in "Piel de Sapo" melon juice.

BACKGROUND: The minimal inhibitory concentration (MIC) of an aqueous extract of Lippia citriodora with reported functional properties (PLX®) was determined on two strains of Escherichia coli (E. coli) belonging to serogroups commonly associated with foodborne illnesses (E. coli O157:H7 ATCC 700728 and E. coli O111 isolate 172) in vegetable products and two control strains for antimicrobial tests assays (E. coli ATCC 25922 and Enterococcus-En. faecalis ATCC 29212). RESULTS: Mean MIC values at standard pH (7.4) in broth for the E. coli strains tested ranged from 4,444 µg/ml (35ºC) to 1,250 µg/ml (10ºC) and to 182 µg/ml (4ºC). At pH 5.5, conditions resembling those of melon juice, MIC was about 2 times higher at 35 and 10ºC compared with 4ºC. The MIC of En. faecalis was similar or slightly lower than those of E. coli at the conditions tested. In melon juice fortified with PLX® (2,500 µg/ml, maximum sensorial acceptable limit), the three strains of E. coli maintained their viability although none showed growth potential after 4 days at 4ºC. CONCLUSIONS: PLX® could be added to melon juice to control E. coli O157:H7 and E. coli O111 during refrigerated storage, reducing the risk of microbiological contamination in this food.