The present disclosure relates to the isolation, identification and characterization of novel sporeforming probiotic strain(s) with NSPase (Non-Starch Polysaccharides-active hydrolases) activity isolated from fish gut microbiota, methods and uses thereof. The sporeforming probiotic strain(s) with NSPase activity now disclosed are able of producing carbohydrate-active enzymes (CAZymes) that hydrolyse non-starch polysaccharides (NSPs) and accesses their potential as probiotics (PRO) for use in particular in aquafeeds.

The invention relates to bacteria of the Christensenellaceae family and compositions containing same for their use in the prevention and/or treatment of renal insufficiency in humans or animals.

Lactobacillus reuteri strain having NCIMB accession number 42835 is from a novel phylogenetic clade and has unique immune-stimulatory properties and enhanced ecological performance in the human gut. A substrate for the strain, such as raffinose, may be administered at the same time as or separately from the strain.

The nutritional food product compositions disclosed herein are provided to increase the levels of bioavailable spermidine. The compositions may include naturally-sourced spermidine in the form of a spermidine-containing fruit, vegetable, legume, and/or grain, one or more components that indirectly provides increased spermidine content, and a supplemental amount of spermidine. The compositions result in an improved profile panel of traditional biomarkers of general health and cellular health, higher levels of energy and alertness, reduced inflammation, and a stronger immune system.

Disclosed herein is a method for inhibiting or preventing Vibrio cholera toxin production in a subject, the method comprising enterally administering to the subject a pharmaceutically effective amount of a fatty acid dissolved or suspended in a pharmaceutically acceptable carrier, wherein the fatty acid contains 10 to 30 carbon atoms, such as an unsaturated fatty acid such as a cis-2-unsaturated fatty acid, such as a fatty acid having the formula:

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wherein n is an integer of 6-26, and the fatty acid optionally includes a second carbon-carbon double bond resulting from removal of two hydrogen atoms on adjacent carbon atoms. Also disclosed herein is a method for treating or preventing a Vibrio infection comprising administering to a subject in need of treatment an effective amount of a genetically engineered bacterium, wherein the genetically engineered bacterium comprises an exogenous nucleic acid encoding an enzyme that produces a diffusible signal factor (DSF) by introducing a cis-2 double bond to a fatty acid.

The present invention relates to a method for improving lactic acid bacteria in survival rate, storage stability, resistance to acid or bile, and adherence to intestinal epithelial cells by coating the surface of lactic acid bacteria with silk fibroin, and a lactic acid bacteria composition prepared therethrough. Conventional techniques construct only a physical protective barrier outside a lactic acid bacteria body by multi-stage coating and thus retain the limitation of being unable to identify an effect on the coherence of lactic acid bacteria to intestinal epithelial cells upon the uptake of the lactic acid bacteria. In contrast, the present invention provides a method in which lactic acid bacteria is coated with silk fibroin extracted from cocoons, whereby the lactic acid bacteria is improved in stability under a storage and distribution condition as well as having remarkably increased stability and intestinal adherence particularly under an intestinal environment.

This invention is referred to the field of medicine, namely preventative treatment, and may be used as a means of synergetic minimization of negative impact of flights on human health (brain, stomach, lungs, blood vessels, heart etc.) with application of known substances and medicines with newly discovered pharmacological properties in new conditions. The ultimate technical solution of this invention would be synergetic minimization of negative impact of flying on human health without foot swelling, belching, jet-lag, tiredness and fatigue etc. The claimed technical result is achieved by the method of synergetic minimization of negative impact of air flights on human health, including consumption of substances that improve osmotic concentration of blood plasma, in the form of oral rehydration solution, split into two intakes as a minimum, first intake in the amount of at least 0.3 liters up to 1 liter before boarding and further during the flight from half an hour to 2 hours at least 0.3 liters to 1 liter and on as-needed basis.

Provide are beneficial bacteria that can be beneficially applied across a wide range of age groups and a composition containing the same. Bifidobacterium longum subspecies longum NITE BP-02568 and/or Bifidobacterium longum subspecies longum NITE BP-02569; and Bifidobacterium longum subspecies longum, having utilization ability for 2′-fucosyllactose are also provided. More preferably, bacteria having utilization ability for carbohydrates arabinoxylan, arabinan, and pectic galactan; and a composition containing the bacteria are also provided. More preferably, a composition containing 2′-fucosyllactose are also provided. More preferably, a composition containing at least one carbohydrate selected from the group consisting of arabinoxylan, arabinan, pectic galactan, and oligosaccharides derived therefrom or containing at least a carbohydrate derived from a gramineous plant or a carbohydrate derived from a solanaceous plant are also provided.

The present invention encompasses compositions and methods useful to treat or prevent Clostridium difficile antibiotic-associated colitis through administration of IL-25 and/or downstream cytokines IL-13, IL-4, and IL-5. It is disclosed herein that IL-25 expression is decreased during antibiotic treatment and during bacterial infection and that treatment with IL-25 protein is protective during infection. It is further disclosed herein the unexpected result that IL-25 treatment protects against C. difficile-associated mortality and morbidity. The present application further describes an unexpected result regarding eosinophils and their role in combating infection and their relationship to the effectiveness of IL-25.

The present invention provides an ATP hydrolyzing enzyme, a nucleic acid encoding an ATP hydrolyzing enzyme, or host cells, microorganisms, such as bacteria, or viral particles comprising such nucleic acids encoding an ATP hydrolyzing enzyme for use in the treatment of dysbiosis or a dysbiosis-related disease.