Probiotic Potential of a Novel Vitamin B2-Overproducing Lactobacillus plantarum Strain, HY7715, Isolated from Kimchi

Kim, Joo-Yun; Choi, Eun-Jung; Lee, Jae-Ho; Yoo, Myeong-Seok; Heo, Keon; Shim, Jae-Jung; Lee, Jung-Lyoul

doi:10.3390/app11135765

Cited by 15 publications

(20 citation statements)

References 55 publications

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“…Studies on the selection and effectiveness of probiotic strains with an excellent riboflavin-producing ability have been reported, and the production of riboflavin after intestinal settlement through probiotics has been reported to have a double effect on the basic functionality of probiotics [29,30]. In our previous studies, we demonstrated the vitamin B2 production ability and high survival rate of the L. plantarum HY7715 (HY7715) strain against gastric and bile acids, and the safety of the HY7715 strain was confirmed through Minimum Inhibitory Concentration (MIC) and hemolysis tests [31].…”

Section: Introductionmentioning

confidence: 87%

Effects of L. plantarum HY7715 on the Gut Microbial Community and Riboflavin Production in a Three-Stage Semi-Continuous Simulated Gut System

Hong¹,

Yoo²,

Heo³

et al. 2021

Microorganisms

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Probiotics should be well established in the gut, passing through the digestive tract with a high degree of viability, and produce metabolites that improve the gut environment by interacting with the gut microbiome. Our previous study revealed that the Lactiplantibacillus plantarum HY7715 strain shows good bile acid resistance and a riboflavin production capacity. To confirm the interaction between HY7715 and gut microbiome, we performed a metabolite and microbiome study using a simulated gut system (SGS) that mimics the intestinal environment. Changes in the microbiome were confirmed and compared with L. plantarum NCDO1752 as the control. After 14 days, the HY7715 treatment group showed a relatively high butyrate content compared to the control group, which showed increased acetate and propionate concentrations. Moreover, the riboflavin content was higher in the HY7715 treatment group, whereas the NCDO1752 treatment group produced only small amounts of riboflavin during the treatment period and showed a tendency to decrease during the washout stage; however, the HY7715 group produced riboflavin continuously in the ascending colon during the washout period. A correlation analysis of the genus that increased as the content of riboflavin increased revealed butyrate-producing microorganisms, such as Blautia and Flavonifractor. In conclusion, treatment with L. plantarum HY7715 induced the production and maintenance of riboflavin and the enrichment of the intestinal microbiome

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Section: Introductionmentioning

confidence: 87%

Effects of L. plantarum HY7715 on the Gut Microbial Community and Riboflavin Production in a Three-Stage Semi-Continuous Simulated Gut System

Hong¹,

Yoo²,

Heo³

et al. 2021

Microorganisms

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“…In this study, we characterized the healthy human isolate L. reuteri AMBV339 with natural riboflavin production levels of 18.36 μg/ml in standard laboratory conditions. Based on the available literature, L. reuteri AMBV339 demonstrates the highest riboflavin production levels described for non-modified lactobacilli isolates in standard non-optimized growth conditions (MRS broth, 37°C, 24 h), which so far appear to be in the maximum range of 3–5 μg/ml ( 14 , 16 – 18 ). Although genetic modification of the riboflavin biosynthesis pathway in Lactococcus lactis NZ9000 resulted in overproduction up to 24 μg/ml of riboflavin ( 50 ), live genetically modified strains are currently not allowed to be used for food fortification in the European Union according to the opinion of the EFSA Panel on Genetically Modified Organisms ( 51 ).…”

Section: Discussionmentioning

confidence: 99%

“…To our knowledge, this is the first study describing an L. reuteri strain with a spontaneous riboflavin-overproducing phenotype. Besides the well-reported investigation and applications of overproducing L. plantarum strains ( 16 , 18 , 52 – 56 ) only few other species of food-grade bacteria including L. lactis ( 50 ), Leuconostoc mesenteroides, Propionibacterium freudenreichii ( 43 ); Limosilactobacillus fermentum ( 57 ); Weissella cibaria , and Leuconostoc spp. ( 58 ) have been reported for the vitamin B2 bio-enrichment of fermented foods.…”

Section: Discussionmentioning

confidence: 99%

“…Riboflavin production is a highly strain-specific property of lactobacilli ( 14 ). While some probiotic strains such as Lacticaseibacillus rhamnosus GG ( 14 , 15 ) cannot produce this vitamin, riboflavin production levels up to 3–5 μg/ml have been described for natural riboflavin-producing lactobacilli isolates such as Lactiplantibacillus plantarum strains M5MA1-B2 and HY7715 grown under standard non-optimized laboratory conditions ( 16 – 18 ). The ability of specific lactobacilli to increase riboflavin content in plant-based alternatives for milk is especially important, since these alternatives gain worldwide popularity, yet they often lack specific vitamins.…”

Section: Introductionmentioning

confidence: 99%

“…Moreover, the acidification capacity of these bacteria can inhibit pathogenic growth, typically resulting in longer shelf life ( 20 ). In addition to the ability of the lactobacilli to produce riboflavin in a range of food matrices, it can be beneficial if the selected strains survive the gastrointestinal tract, so that the vitamins can be produced in situ at the target site to further enhance delivery and maximize the chance of reaching required daily intake levels ( 16 , 21 ).…”

Section: Introductionmentioning

confidence: 99%

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Spontaneous Riboflavin-Overproducing Limosilactobacillus reuteri for Biofortification of Fermented Foods

et al. 2022

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Riboflavin-producing lactic acid bacteria represent a promising and cost-effective strategy for food biofortification, but production levels are typically insufficient to support daily human requirements. In this study, we describe the novel human isolate Limosilactobacillus reuteri AMBV339 as a strong food biofortification candidate. This strain shows a high natural riboflavin (vitamin B2) overproduction of 18.36 μg/ml, biomass production up to 6 × 1010 colony-forming units/ml (in the typical range of model lactobacilli), and pH-lowering capacities to a pH as low as 4.03 in common plant-based (coconut, soy, and oat) and cow milk beverages when cultured up to 72 h at 37°C. These properties were especially pronounced in coconut beverage and butter milk fermentations, and were sustained in co-culture with the model starter Streptococcus thermophilus. Furthermore, L. reuteri AMBV339 grown in laboratory media or in a coconut beverage survived in gastric juice and in a simulated gastrointestinal dialysis model with colon phase (GIDM-colon system) inoculated with fecal material from a healthy volunteer. Passive transport of L. reuteri AMBV339-produced riboflavin occurred in the small intestinal and colon stage of the GIDM system, and active transport via intestinal epithelial Caco-2 monolayers was also demonstrated. L. reuteri AMBV339 did not cause fecal microbiome perturbations in the GIDM-colon system and inhibited enteric bacterial pathogens in vitro. Taken together, our data suggests that L. reuteri AMBV339 represents a promising candidate to provide riboflavin fortification of plant-based and dairy foods, and has a high application potential in the human gastrointestinal tract.

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Evaluation of antioxidant activity and fermentation properties of potential probiotic strain Lactiplantibacillus plantarum HY7720 in plant-based materials

Kim,

Choi,

Jang

et al. 2024

Discov Appl Sci

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People on vegan diets are at risk of being deficient in varied nutrients such as vitamin B12 and certain amino acids. In this study, we investigated vitamin B12-producing lactic acid bacteria (LAB) as well as the probiotic and antioxidant properties. Lactiplantibacillus plantarum HY7720 was screened from 22 strains of LAB that were isolated from different plant foods, and its growth ability and extracellular vitamin B12-producing capacity in vitamin B12-deficient medium were investigated. To determine whether HY7720 functions as a probiotic, survival rate in the simulated gastrointestinal tract and adhesion property to human intestinal epithelial cells of HY7720 were compared with positive control, Lacticaseibacillus rhamnosus GG (LGG). Moreover, the results showed that HY7720 recovered the gene expression levels of tight junction-associated proteins (TJPs), including TJP1, TJP2, occludin (OCLN), and claudin-1 (CLDN1) and inhibited the secretion levels of pro-inflammatory cytokines, including interleukin (IL)-6 and IL-8, in tumor necrosis factor (TNF)-α-stimulated Caco-2 cells. Furthermore, we verified that HY7720 exhibit the antioxidant potential, by showing its intracellular reactive oxygen species (ROS) scavenging ability in hydrogen peroxide (H2O2)-stimulated Caco-2 cells. The ability of HY7720 to ameliorate H2O2-induced cytotoxicity in Caco-2 cells was inhibited by mitogen-activated protein kinase (MAPK) inhibitors, indicating that its antioxidant responses are related to extracellular signal-regulated kinase (ERK) and c-JUN N-terminal kinase (JNK). This study also investigated the nutritional qualities of three plant-based materials (brown rice, white rice, and soy milk) fermented using HY7720. Collectively, HY7720 could be used as a promising probiotic strain for the prevention of nutritional deficiencies among people on vegetarian diets.

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Probiotic Potential of a Novel Vitamin B2-Overproducing Lactobacillus plantarum Strain, HY7715, Isolated from Kimchi

Cited by 15 publications

References 55 publications

Effects of L. plantarum HY7715 on the Gut Microbial Community and Riboflavin Production in a Three-Stage Semi-Continuous Simulated Gut System

Effects of L. plantarum HY7715 on the Gut Microbial Community and Riboflavin Production in a Three-Stage Semi-Continuous Simulated Gut System

Spontaneous Riboflavin-Overproducing Limosilactobacillus reuteri for Biofortification of Fermented Foods

Evaluation of antioxidant activity and fermentation properties of potential probiotic strain Lactiplantibacillus plantarum HY7720 in plant-based materials

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