Recent advances in the biological activities of microbial exopolysaccharides

Salimi, Fatemeh; Farrokh, Parisa

doi:10.1007/s11274-023-03660-x

Cited by 21 publications

(12 citation statements)

References 185 publications

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“…EPS can be categorized into two groups based on their properties, namely homopolysaccharides (HoPSs), composed of a single monosaccharide, and heteropolysaccharides (HePSs), consisting of one or more types of monosaccharides ( Salazar et al, 2016 ; Angelin and Kavitha, 2020 ; Netrusov et al, 2023 ; Salimi and Farrokh, 2023 ). While homopolysaccharides are produced by certain lactic acid bacteria, their production in bifidobacteria remains unidentified ( Hidalgo-Cantabrana et al, 2012 ; Castro-Bravo et al, 2018b ; Lynch et al, 2018 ).…”

Section: Composition Of Bifidobacterium Epsmentioning

confidence: 99%

“…Additionally, housekeeping genes involved in sugar nucleotide formation play a crucial role. Given the abundance of the CRISPR-Cas system in bifidobacteria, gene editing using the CRISPR system offers a promising avenue for modifying EPS with new biological activities ( Xu et al, 2019 ; Zuo et al, 2020 ; Sun and Zhang, 2021 ; Salimi and Farrokh, 2023 ).…”

Section: Bifidobacterium Eps Engineering Strategymentioning

confidence: 99%

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Bifidobacterium exopolysaccharides: new insights into engineering strategies, physicochemical functions, and immunomodulatory effects on host health

Sadeghi,

Haghshenas,

Nami

2024

Front. Microbiol.

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Bifidobacteria are a prominent type of bacteria that have garnered significant research attention for their exceptional probiotic properties and capacity to produce exopolysaccharides (EPSs). These compounds exhibit diverse physical, chemical, and biological characteristics, prompting numerous investigations into their potential applications. Researchers have noted their beneficial effects as immune modulators within the host’s body across various industries. Extensive research has been conducted on the immunomodulatory effects of bifidobacteria-derived EPSs, with emerging engineering strategies aimed at enhancing their immune-modulating capabilities. Understanding the structure, physicochemical properties, and biological activities of these compounds is crucial for their effective utilization across different industries. Our review encompassed numerous studies exploring Bifidobacterium and its metabolites, including EPSs, across various sectors, drawing from diverse databases. The distinctive properties of EPSs have spurred investigations into their applications, revealing their potential to bolster the immune system, combat inflammation, and treat various ailments. Additionally, these compounds possess antioxidant and antimicrobial properties, making them suitable for incorporation into a range of products spanning food, health, and medicine.

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Section: Composition Of Bifidobacterium Epsmentioning

confidence: 99%

Section: Bifidobacterium Eps Engineering Strategymentioning

confidence: 99%

Bifidobacterium exopolysaccharides: new insights into engineering strategies, physicochemical functions, and immunomodulatory effects on host health

Sadeghi,

Haghshenas,

Nami

2024

Front. Microbiol.

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“…EPSs are homopolysaccharides or heteropolysaccharides with different properties in terms of their composition, structural conformation, molecular weight, and functional groups. Microbial EPSs are more cost-effective than polysaccharides of plant and animal origin, and large amounts of EPS can be produced in a short time using low-cost substrates such as microorganism wastes [ 120 ].…”

Section: Postbiotics and Crcmentioning

confidence: 99%

The Crucial Roles of Diet, Microbiota, and Postbiotics in Colorectal Cancer

Kuru-Yaşar,

Üstün-Aytekin

2024

Curr Nutr Rep

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Purpose of Review Colorectal cancer is the second deadliest cancer in the world, and its prevalence has been increasing alarmingly in recent years. After researchers discovered the existence of dysbiosis in colorectal cancer, they considered the use of probiotics in the treatment of colorectal cancer. However, for various reasons, including the low safety profile of probiotics in susceptible and immunocompromised patient5s, and the risk of developing antibiotic resistance, researchers have shifted their focus to non-living cells, their components, and metabolites. This review aims to comprehensively evaluate the literature on the effects of diet, microbiota, and postbiotics on colorectal cancer and the future of postbiotics. Recent Findings The link between diet, gut microbiota, and colorectal cancer has been established primarily as a relationship rather than a cause-effect relationship. The gut microbiota can convert gastrointestinal tract and dietary factors into either onco-metabolites or tumor suppressor metabolites. There is serious dysbiosis in the microbiota in colorectal cancer. Postbiotics appear to be promising agents in the prevention and treatment of colorectal cancer. Summary It has been shown that various postbiotics can selectively induce apoptosis in CRC, inhibit cell proliferation, growth, invasion, and migration, modulate the immune system, suppress carcinogenic signaling pathways, maintain intestinal epithelial integrity, and have a synergistic effect with chemotherapy drugs. However, it is also reported that some postbiotics are ineffective and may be risky in terms of safety profile in some patients. Many issues need to be researched about postbiotics. Large-scale, randomized, double-blind clinical studies are needed.

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“…Folic acid functions as an antioxidant by lowering the production of superoxide radicals catalyzed by nitric oxide synthase (NOS) [ 234 ].EPSs from Bacillus subtilis sp. suppress (BSEPS) control hyperglycemia and dyslipidemia in diabetic rats by increasing insulin levels and decreasing blood glucose and troponin blood concentrations [ 235 ].The fact that EPSs from Lactobacillus plantarum H31-2 decreased the amount of glucose in the supernatant of insulin-resistant HepG2 cells suggests that EPS H31-2 may help these cells to take up glucose through the AMPK/PI3K/Akt pathway. The expression of the glycometabolism-related genes glucose transporter 4 (GLUT-4), protein kinase B (Akt-2), and AMP-activated kinase (AMPK) was also elevated by EPS H31-2.…”

Section: Overall Therapeutic Effects Of Postbioticsmentioning

confidence: 99%

Postbiotics: Functional Food Materials and Therapeutic Agents for Cancer, Diabetes, and Inflammatory Diseases

Gurunathan,

Thangaraj,

Kim

2023

Foods

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Postbiotics are (i) “soluble factors secreted by live bacteria, or released after bacterial lysis, such as enzymes, peptides, teichoic acids, peptidoglycan-derived muropeptides, polysaccharides, cell-surface proteins and organic acids”; (ii) “non-viable metabolites produced by microorganisms that exert biological effects on the hosts”; and (iii) “compounds produced by microorganisms, released from food components or microbial constituents, including non-viable cells that, when administered in adequate amounts, promote health and wellbeing”. A probiotic- and prebiotic-rich diet ensures an adequate supply of these vital nutrients. During the anaerobic fermentation of organic nutrients, such as prebiotics, postbiotics act as a benevolent bioactive molecule matrix. Postbiotics can be used as functional components in the food industry by offering a number of advantages, such as being added to foods that are harmful to probiotic survival. Postbiotic supplements have grown in popularity in the food, cosmetic, and healthcare industries because of their numerous health advantages. Their classification depends on various factors, including the type of microorganism, structural composition, and physiological functions. This review offers a succinct introduction to postbiotics while discussing their salient features and classification, production, purification, characterization, biological functions, and applications in the food industry. Furthermore, their therapeutic mechanisms as antibacterial, antiviral, antioxidant, anticancer, anti-diabetic, and anti-inflammatory agents are elucidated.

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Recent advances in the biological activities of microbial exopolysaccharides

Cited by 21 publications

References 185 publications

Bifidobacterium exopolysaccharides: new insights into engineering strategies, physicochemical functions, and immunomodulatory effects on host health

Bifidobacterium exopolysaccharides: new insights into engineering strategies, physicochemical functions, and immunomodulatory effects on host health

The Crucial Roles of Diet, Microbiota, and Postbiotics in Colorectal Cancer

Postbiotics: Functional Food Materials and Therapeutic Agents for Cancer, Diabetes, and Inflammatory Diseases

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