Therapeutic and Improving Function of Lactobacilli in the Prevention and Treatment of Cardiovascular-Related Diseases: A Novel Perspective From Gut Microbiota

Zhao, Xin; Zhong, Xinqin; Liu, Xiao; Wang, Xiaoying; Gao, Xiumei

doi:10.3389/fnut.2021.693412

Cited by 48 publications

(37 citation statements)

References 220 publications

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“…Intestinal Lactobacillus colonies exert protective effect on the heart by regulating atheroinflammatory response, cholesterol metabolism, oxidative stress response, and gut-derived functional metabolites production such as TMAO, SCFAs, LPS, and BA ( Companys et al, 2021 ; Papadopoulos et al, 2022 ). Of note, researchers also support that lactobacillus interventions could significantly impart a cardioprotective role by regulating the abundance and diversity of selective gut microbial flora ( Zhao et al, 2021 ). To exemplify, L. salivarius Ls-33 supplementation changed gut microbiota composition by escalating the Prevotella-Bacteroides–Porphyromonas group/Firmicutes ratio in obese heart patients ( Zhao et al, 2021 ).…”

Section: Genus Lactobacillus and Human Healthmentioning

confidence: 99%

“…Of note, researchers also support that lactobacillus interventions could significantly impart a cardioprotective role by regulating the abundance and diversity of selective gut microbial flora ( Zhao et al, 2021 ). To exemplify, L. salivarius Ls-33 supplementation changed gut microbiota composition by escalating the Prevotella-Bacteroides–Porphyromonas group/Firmicutes ratio in obese heart patients ( Zhao et al, 2021 ).…”

Section: Genus Lactobacillus and Human Healthmentioning

confidence: 99%

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Gut microbiome and human health: Exploring how the probiotic genus Lactobacillus modulate immune responses

Rastogi

Singh

2022

Front. Pharmacol.

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The highest density of microbes resides in human gastrointestinal tract, known as “Gut microbiome”. Of note, the members of the genus Lactobacillus that belong to phyla Firmicutes are the most important probiotic bacteria of the gut microbiome. These gut-residing Lactobacillus species not only communicate with each other but also with the gut epithelial lining to balance the gut barrier integrity, mucosal barrier defence and ameliorate the host immune responses. The human body suffers from several inflammatory diseases affecting the gut, lungs, heart, bone or neural tissues. Mounting evidence supports the significant role of Lactobacillus spp. and their components (such as metabolites, peptidoglycans, and/or surface proteins) in modulatingimmune responses, primarily through exchange of immunological signals between gastrointestinal tract and distant organs. This bidirectional crosstalk which is mediated by Lactobacillus spp. promotes anti-inflammatory response, thereby supporting the improvement of symptoms pertaining to asthma, chronic obstructive pulmonary disease (COPD), neuroinflammatory diseases (such as multiple sclerosis, alzheimer’s disease, parkinson’s disease), cardiovascular diseases, inflammatory bowel disease (IBD) and chronic infections in patients. The metabolic disorders, obesity and diabetes are characterized by a low-grade inflammation. Genus Lactobacillus alleviates metabolic disorders by regulating the oxidative stress response and inflammatory pathways. Osteoporosis is also associated with bone inflammation and resorption. The Lactobacillus spp. and their metabolites act as powerful immune cell controllers and exhibit a regulatory role in bone resorption and formation, supporting bone health. Thus, this review demonstrated the mechanisms and summarized the evidence of the benefit of Lactobacillus spp. in alleviating inflammatory diseases pertaining to different organs from animal and clinical trials. The present narrative review explores in detail the complex interactions between the gut-dwelling Lactobacillus spp. and the immune components in distant organs to promote host’s health.

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Section: Genus Lactobacillus and Human Healthmentioning

confidence: 99%

Section: Genus Lactobacillus and Human Healthmentioning

confidence: 99%

Gut microbiome and human health: Exploring how the probiotic genus Lactobacillus modulate immune responses

Rastogi

Singh

2022

Front. Pharmacol.

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“…Limosilactobacillus reuteri is an important resident microflora in the intestines of all vertebrates, including mammals. 34 DS0333 showed a moderate effect on hIO maturation, both on the morphology and marker expression, compared to DS0384, whereas DS0195 and KCTC3594 T showed a weaker effect on hIO maturation ( Figure 1(a–d )), indicating that the intestinal maturation effect of the postbiotic metabolites of L. reuteri is strain-dependent rather than a common characteristic of the respective species. In addition, the active metabolites were detected continually throughout the growth phase and stably concentrated in the culture broth, showing that the intestinal maturation effect of the CFS from DS0384 gradually increased from the exponential to the late stationary phase of growth ( Figure 1(e-h ) and Supplementary Figure S3).…”

Section: Discussionmentioning

confidence: 95%

Limosilactobacillus reuteri DS0384 promotes intestinal epithelial maturation via the postbiotic effect in human intestinal organoids and infant mice

et al. 2022

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Little is known about the modulatory capacity of the microbiota in early intestinal development. We examined various intestinal models that respond to gut microbial metabolites based on human pluripotent stem cell-derived human intestinal organoids (hIOs): physiologically relevant in vitro fetal-like intestine, intestinal stem cell, and intestinal disease models. We found that a newly isolated Limosilactobacillus reuteri strain DS0384 accelerated maturation of the fetal intestine using 3D hIO with immature fetal characteristics. Comparative metabolomic profiling analysis revealed that the secreted metabolite N-carbamyl glutamic acid (NCG) is involved in the beneficial effect of DS0384 cell-free supernatants on the intestinal maturation of hIOs. Experiments in an intestinal stem cell spheroid model and hIO-based intestinal inflamed model revealed that the cell-free supernatant from DS0384 comprising NCG promoted intestinal stem cell proliferation and was important for intestinal protection against cytokine-induced intestinal epithelial injury. The probiotic properties of DS0384 were also evaluated, including acid and bile tolerance and ability to adhere to human intestinal cells. Seven-day oral administration of DS0384 and cell-free supernatant promoted the intestinal development of newborn mice. Moreover, NCG exerted a protective effect on experimental colitis in mice. These results suggest that DS0384 is a useful agent for probiotic applications and therapeutic treatment for disorders of early gut development and for preventing intestinal barrier dysfunction.

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“…Lactobacillus is generally reported as indicative of healthy microbiota. Related studies indicated that patients with cardiovascular disease or chronic inflammation had fewer proportions of Lactobacillus in the gut 25,26 . Lam et al .…”

Section: Discussionmentioning

confidence: 99%

“…Related studies indicated that patients with cardiovascular disease or chronic inflammation had fewer proportions of Lactobacillus in the gut. 25,26 Lam et al demonstrated that a diet rich in saturated fat could lead to the development of lipogenic liver, which was associated with a significant decrease in the abundance of Lactobacillus. 27 Goldin et al reported that probiotic Lactobacillus was able to increase the production of antiinflammatory metabolites in the host's intestinal epithelial cells, which contributed to the first line of host defenses against enterovirulent bacteria.…”

Section: Discussionmentioning

confidence: 99%

Comparison of whole goat milk and its major fractions regarding the modulation of gut microbiota

Liu

Zhang

2021

J Sci Food Agric

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BACKGROUND: Goat milk can be important for human nutrition because of its nutritional value, which may be attributed to its richness in protein, lactose, fat, and other bioactive components. This study compared the diversity and composition of gut microbiota in response to whole goat milk and its major fractions (milk fat, casein, milk whey, whey protein, and whey supernatant). Goat milk, its major fractions, and sterile distilled water (for the control group) were administered to mice intragastrically, and gut microbiota were compared in these groups using metagenomic analysis. RESULTS:We observed distinct patterns of gut microbiota from different diet groups. The sample distance heatmap showed that, compared with other goat milk fractions, gut microbiota in the casein group was more similar to that in the whole goat-milk group. The relative abundance of the genus Lactobacillus increased significantly after whole goat-milk treatment; the milk whey fraction increased the abundance of Blautia; milk fat and milk whey related fractions treatment promoted the population of Bacteroides. The network analysis showed that genera Lactobacillus and Lactococcus were negatively associated with Helicobacter and Acinetobacter, respectively. CONCLUSION: Fractions of goat milk could contain different gut microbiota from whole goat milk. Consumption of certain goat milk fractions could increase the ingestion of beneficial bacteria and inhibit the growth of some pathogenic bacteria. Our results could provide the basis for the research into and development of goat-milk based functional foods.

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Therapeutic and Improving Function of Lactobacilli in the Prevention and Treatment of Cardiovascular-Related Diseases: A Novel Perspective From Gut Microbiota

Cited by 48 publications

References 220 publications

Gut microbiome and human health: Exploring how the probiotic genus Lactobacillus modulate immune responses

Gut microbiome and human health: Exploring how the probiotic genus Lactobacillus modulate immune responses

Limosilactobacillus reuteri DS0384 promotes intestinal epithelial maturation via the postbiotic effect in human intestinal organoids and infant mice

Comparison of whole goat milk and its major fractions regarding the modulation of gut microbiota

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