809 and 810 support in vitro intestinal integrity under hydrogen peroxide and deoxynivalenol challenges.

We designed and conducted two in vitro experiments to evaluate the effects of two spp. probiotics on gut barrier integrity using the transepithelial electrical resistance () assay under two different challenge models. In Exp.

Making H-H Couplings More Accessible and Accurate with Selective 2DJ NMR Experiments Aided by C Satellites.

H-H coupling constants are one of the primary sources of information for nuclear magnetic resonance (NMR) structural analysis. Several selective 2DJ experiments have been proposed that allow for their individual measurement at pure shift resolution. However, all of these experiments fail in the not uncommon case when coupled protons have very close chemical shifts.

Short communication: a novel multispecies bacteria-based direct-fed microbial supports in vitro gut barrier integrity challenged with a pathogen or pro-inflammatory cytokines.

We conducted two experiments to evaluate the effects of a novel bacterial-based direct-fed microbial (DFM) on intestinal barrier integrity using the in vitro transepithelial electrical resistance (TEER) assay. In experiment 1, human-derived Caco-2 cells received or not (CON) a DFM containing Ligilactobacillus (formerly Lactobacillus) animalis 506, Propionibacterium freudenreichii 507, Bacillus paralicheniformis 809, and B. subtilis 597 (BDP; BOVAMINE DEFEND® Plus) at a rate of 1 × 108 CFU/transwell.

Human milk oligosaccharides differentially support gut barrier integrity and enhance Th1 and Th17 cell effector responses .

Human milk oligosaccharides (HMOs) can modulate the intestinal barrier and regulate immune cells to favor the maturation of the infant intestinal tract and immune system, but the precise functions of individual HMOs are unclear. To determine the structure-dependent effects of individual HMOs (representing different structural classes) on the intestinal epithelium as well as innate and adaptive immune cells, we assessed fucosylated (2'FL and 3FL), sialylated (3'SL and 6'SL) and neutral non-fucosylated (LNT and LNT2) HMOs for their ability to support intestinal barrier integrity, to stimulate the secretion of chemokines from intestinal epithelial cells, and to modulate cytokine release from LPS-activated dendritic cells (DCs), M1 macrophages (MØs), and co-cultures with naïve CD4 T cells. The fucosylated and neutral non-fucosylated HMOs increased barrier integrity and protected the barrier following an inflammatory insult but exerted minimal immunomodulatory activity.

Bacillus subtilis-597 induces changes in lung pathology and inflammation during influenza A virus infection in pigs.

In recent years, it has become apparent that imbalances in the gastrointestinal system can impact organs beyond the intestine such as the lungs. Given the established ability of probiotics to modulate the immune system by interacting with gastrointestinal cells, our research aimed to investigate whether administering the probiotic strain Bacillus subtilis-597 could mitigate the outcome of influenza virus infection in pigs. Pigs were fed a diet either with or without the probiotic strain B.