Abstract
Globally, foodborne diseases (FBDs) result in millions of sicknesses and deaths annually. Cumulative evidence suggests that the use of probiotic lactic acid bacteria (LAB) strains could be a viable alternative in inhibiting the activities of foodborne pathogens. This study aims to evaluate the in vitro antimicrobial, cytotoxic, and tolerance levels of Lactobacillus bulgaricus KLDS 1.0207 against two notable foodborne pathogens – Escherichia coli ATCC25922 and Staphylococcus aureus ATCC25923. Afterward, a 48 BALB/c mice-trial was used to assess its ameliorative effects on weight and serum biochemical parameters. Results showed that the cell-free supernatant (CFS) of this strain significantly inhibited both pathogens, but these effects were abolished at pH 6.5 and 7.0 (P < 0.05). Also, 6.96 ± 0.02 log CFU mL–1 of L. bulgaricus KLDS 1.0207 was still viable after three hours in simulated gastric juice and at pH 3.0, indicating that this strain was a potential probiotic candidate. Also, inflammatory activities in RAW264.7 cells were significantly inhibited using 109 CFU mL–1 of L. bulgaricus KLDS 1.0207 cells (P < 0.05). Significant weight losses were also prevented in the TLBSA (from 19.42 ± 1.04 to 19.55 ± 0.55 g) and TLBEC (from 22.86 ± 0.90 to 14.77 ± 9.86 g) groups compared to their respective model groups (TSA – from 21.65 ± 1.80 to 20.14 ± 1.84, and TEC – from 21.45 ± 0.82 to 14.45 ± 9.70 g). Besides, there was a slight weight gain in the S. aureus prevention group (TLBSA) compared to the model group (TSA). Serum biochemical analyses revealed that the total cholesterol (TC), triglycerides (TG), low-density lipoprotein (LDL), and some mineral levels were markedly increased by S. aureus and E. coli administrations but were reversed to normalcy in both prevention groups (TLBSA and TLBEC). Interestingly, high-density lipoprotein (HDL) levels, which were initially disrupted in the model groups, were restored in the prevention groups (TLBSA and TLBEC). This study presents L. bulgaricus KLDS 1.0207 as a promising probiotic candidate with antimicrobial, anti-inflammatory, acid, and bile tolerant and lipid-regulating applications. It also gives valuable insights for targeted future in vivo treatment and prevention studies involving other probiotic LAB candidates. Future in vivo studies elucidating specific mechanisms behind the in vitro antimicrobial, cytotoxic, and in vivo ameliorative effects are warranted.
Highlights
Foodborne diseases (FBDs) remain a persistent cause of illnesses and mortalities worldwide
Strain Cell-Free Supernatants (CFS) antimicrobial effects reduced significantly as pH tended toward the neutral point, with antimicrobial activities against Escherichia coli and Staphylococcus aureus reducing by 86.35%, and 88.70%, respectively
We report for the first time, the potential antimicrobial effects of L. bulgaricus KLDS 1.0207 CFS against the vaginal pathogen, G. vaginalis ATCC14018 (Supplementary Table S1)
Summary
Foodborne diseases (FBDs) remain a persistent cause of illnesses and mortalities worldwide. The World Health Organization (WHO) had assessed the link between FBDs and the possible food sources and identifying 11 food sources that are potential reservoirs for food pathogens (Batz et al, 2005; Pires et al, 2009). This and other previous reports again emphasize the constant dangers that these pathogens can pose as they can be quickly taken in by humans and cause a variety of uncomfortable conditions (Hoffmann et al, 2017; Li et al, 2019). Several disorders, including FBDs, metabolic syndrome, cardiovascular, and kidney malfunctions, have been traced to imbalances in the gut microbiome (Evivie et al, 2017; Tang et al, 2017)
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