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1.
Free Radic Biol Med ; 212: 505-519, 2024 02 20.
Article in English | MEDLINE | ID: mdl-38211833

ABSTRACT

High altitude is closely related to intestinal mucosal damage and intestinal microbiota imbalance, and there is currently no effective prevention and treatment measures. In this study, the effects of stachyose (STA), L. rhamnosus GG (LGG) and their combination on inflammatory response, oxidatve stress and intestinal barrier function in mice exposed to acute hypobaric hypoxia were investigated. Our results indicated the combination of STA and LGG could more effectively regulate intestinal microbiota disorders caused by hypobaric hypoxia than STA or LGG alone. When mice were administered with STA + LGG, the content of short chain fatty acids (SCFAs) especially butyric acid significantly increased, which helped intestinal cells to form tight connections, improve the level of anti-inflammatory cytokine (TGF-ß) and antioxidant enzymes (SOD, CAT, GSH-Px), and decrease the expression of pro-inlammatory cytokines and hypoxia-inducing factors (IFN-γ, IL-1ß, IL-6, TNF-α and HIF-1α), thereby enhance the strong intestinal barrier function. Furthermore, the synbiotics significantly reduced the ratio of Firmicutes to Bacteroidetes, while significantly increased the relative abundance of Rikenella, Bacteroides, Odoribacter, Ruminiclostridium_5 and Gordonibacter, which were correlated with production of SCFAs and anti-inflammatory role. Correlation analysis showed that the protective effect of synbiotics on intestinal barrier function was associated with its anti-inflammatory activity and antioxidant capacity. It provided a strong foundation for further research on the role of STA and LGG in maintaining normal intestinal function at high altitude. Our study has identified and demonstrated a new synbiotic that may be one of the ideal intervention measures for preventing and treating intestinal dysfunction at high altitude.


Subject(s)
Intestinal Diseases , Lacticaseibacillus rhamnosus , Oligosaccharides , Animals , Mice , Antioxidants/pharmacology , Antioxidants/metabolism , Cytokines/metabolism , Oxidative Stress , Hypoxia , Anti-Inflammatory Agents
2.
Glycobiology ; 33(4): 274-288, 2023 05 17.
Article in English | MEDLINE | ID: mdl-36795047

ABSTRACT

Based on factual scientific health claims, prebiotics have gained significant importance in ever-growing food and pharmaceutical industries. The diverse nature of distinct prebiotics influences the host differently in distinguishable patterns. Functional oligosaccharides are either plant-derived or commercially prepared. Raffinose, stachyose, and verbascose are the 3 types of raffinose family oligosaccharides (RFOs) that have been extensively used as medicine, cosmetic, and food additives. These dietary fiber fractions avert the adhesion and colonization by enteric pathogens and add nutrition metabolites for a healthy immune system. Enrichment of RFOs in healthy foods should be promoted as these oligosaccharides augment gut microecology by enhancing the health conferring microbes i.e. bifidobacteria and lactobacilli. RFOs influence the host's multiorgan systems due to their physiological and physicochemical properties. For example, the fermented microbial products of such carbohydrates affect neurological processes, including memory, mood, and behavior in humans. Raffinose-type sugar uptake is thought to be a ubiquitous property of bifidobacteria. This review paper summarizes the source of RFOs and their metabolizing entities, highlighting bifidobacterial carbohydrate utilization and health benefits.


Subject(s)
Oligosaccharides , Prebiotics , Humans , Raffinose/metabolism , Oligosaccharides/metabolism , Sugars , Lactobacillus
3.
Anal Chem ; 94(3): 1823-1830, 2022 Jan 25.
Article in English | MEDLINE | ID: mdl-35020360

ABSTRACT

Room-temperature ionic liquids (RTILs) emerged as ideal solvents, and bipyridine as one of the most used ligands have been widely employed in surface science, catalysis, and molecular electronics. Herein, in situ shell-isolated nanoparticle-enhanced Raman spectroscopy (SHINERS) and STM break junction (STM-BJ) technique has been employed to probe the electrochemical process of bipyridine at Au(111)/IL interfaces. It is interestingly found that these molecules undertake a redox process with a pair of well-defined reversible peaks in cyclic voltammograms (CVs). The spectroscopic evidence shows a radical cation generated with rising new Raman peaks related to parallel CC stretching of a positively charged pyridyl ring. Furthermore, these electrochemically charged bipyridine is also confirmed by electrochemical STM-BJ at the single-molecule level, which displays a binary conductance switch ratio of about 400% at the redox potentials. This present work offers a molecular-level insight into the pyridine-mediated reaction process and electron transport in RTILs.

4.
Angew Chem Int Ed Engl ; 60(28): 15452-15458, 2021 Jul 05.
Article in English | MEDLINE | ID: mdl-33884737

ABSTRACT

Clarifying interfacial electronic effects on molecular adsorption is significant in many chemical and biochemical processes. Here, we used STM breaking junction and shell-isolated nanoparticle-enhanced Raman spectroscopy to probe electron transport and adsorption geometries of 4,4'-bipyridine (4,4'-BPY) at Au(111). Modifying the surface with 1-butyl-3-methylimidazolium cation-containing ionic liquids (ILs) decreases surface electron density and stabilizes a vertical orientation of pyridine through nitrogen atom σ-bond interactions, resulting in uniform adsorption configurations for forming molecular junctions. Modulation from vertical, tilted, to flat, is achieved on adding water to ILs, leading to a new peak ascribed to CC stretching of adsorbed pyridyl ring and 316 % modulation of single-molecule conductance. The dihedral angle between adsorbed pyridyl ring and surface decreases with increasing surface electronic density, enhancing electron donation from surface to pyridyl ring.

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