about
PKC eta regulates occludin phosphorylation and epithelial tight junction integrityAnti-inflammatory and Intestinal Barrier-protective Activities of Commensal Lactobacilli and Bifidobacteria in Thoroughbreds: Role of Probiotics in Diarrhea Prevention in Neonatal Thoroughbreds.Regulation of intestinal epithelial permeability by tight junctions.Bifidobacterium longum alleviates dextran sulfate sodium-induced colitis by suppressing IL-17A response: involvement of intestinal epithelial costimulatory moleculesA gut microbial metabolite of linoleic acid, 10-hydroxy-cis-12-octadecenoic acid, ameliorates intestinal epithelial barrier impairment partially via GPR40-MEK-ERK pathway.Streptococcus thermophilus ST28 ameliorates colitis in mice partially by suppression of inflammatory Th17 cells.Supplemental epilactose prevents metabolic disorders through uncoupling protein-1 induction in the skeletal muscle of mice fed high-fat diets.c-Jun NH2-terminal kinase-2 mediates osmotic stress-induced tight junction disruption in the intestinal epithelium.Role of flavonoids in intestinal tight junction regulation.Interleukin-6 (IL-6) regulates claudin-2 expression and tight junction permeability in intestinal epithelium.Glycochenodeoxycholic acid promotes proliferation of intestinal epithelia via reduction of cyclic AMP and increase in H2AX phosphorylation after exposure to γ-rays.A novel mechanism underlying phytate-mediated biological action-phytate hydrolysates induce intracellular calcium signaling by a Gαq protein-coupled receptor and phospholipase C-dependent mechanism in colorectal cancer cells.Dietary fat and bile juice, but not obesity, are responsible for the increase in small intestinal permeability induced through the suppression of tight junction protein expression in LETO and OLETF ratsModulatory activity of Lactobacillus rhamnosus OLL2838 in a mouse model of intestinal immunopathology.Phytate hydrolysate induces circumferential F-actin ring formation at cell-cell contacts by a Rho-associated kinase-dependent mechanism in colorectal cancer HT-29 cells.Cellular zinc is required for intestinal epithelial barrier maintenance via the regulation of claudin-3 and occludin expression.Phosphorylation of Tyr-398 and Tyr-402 in occludin prevents its interaction with ZO-1 and destabilizes its assembly at the tight junctions.Supplemental naringenin prevents intestinal barrier defects and inflammation in colitic mice.Various non-digestible saccharides increase intracellular calcium ion concentration in rat small-intestinal enterocytes.Supplemental psyllium fibre regulates the intestinal barrier and inflammation in normal and colitic mice.Physiological concentrations of short-chain fatty acids immediately suppress colonic epithelial permeability.Naringenin enhances intestinal barrier function through the expression and cytoskeletal association of tight junction proteins in Caco-2 cells.Role of phospholipase Cgamma-induced activation of protein kinase Cepsilon (PKCepsilon) and PKCbetaI in epidermal growth factor-mediated protection of tight junctions from acetaldehyde in Caco-2 cell monolayers.Short-Chain Fatty Acids Suppress Inflammatory Reactions in Caco-2 Cells and Mouse Colons.Supplemental feeding of a gut microbial metabolite of linoleic acid, 10-hydroxy-cis-12-octadecenoic acid, alleviates spontaneous atopic dermatitis and modulates intestinal microbiota in NC/nga mice.Dietary Fermentable Fiber Reduces Intestinal Barrier Defects and Inflammation in Colitic Mice.Repeated exposure to water immersion stress reduces the Muc2 gene level in the rat colon via two distinct mechanisms.Fructooligosaccharide augments benefits of quercetin-3-O-β-glucoside on insulin sensitivity and plasma total cholesterol with promotion of flavonoid absorption in sucrose-fed rats.Guar gum fiber increases suppressor of cytokine signaling-1 expression via toll-like receptor 2 and dectin-1 pathways, regulating inflammatory response in small intestinal epithelial cells.Dietary psyllium fiber increases intestinal heat shock protein 25 expression in mice.Quercetin enhances intestinal barrier function through the assembly of zonula [corrected] occludens-2, occludin, and claudin-1 and the expression of claudin-4 in Caco-2 cells.Phosphorylation hotspot in the C-terminal domain of occludin regulates the dynamics of epithelial junctional complexes.The nondigestible disaccharide epilactose increases paracellular Ca absorption via rho-associated kinase- and myosin light chain kinase-dependent mechanisms in rat small intestines.Citrus kawachiensis peel powder reduces intestinal barrier defects and inflammation in colitic miceHigh-fat Diet-induced Intestinal Hyperpermeability is Associated with Increased Bile Acids in the Large Intestine of MiceDistinguishing glutamic acid in foodstuffs and monosodium glutamate used as seasoning by stable carbon and nitrogen isotope ratiosMassive large bowel resection decreases bone strength and magnesium content but not calcium content of the femur in ratsEffects of difructose anhydride III on calcium absorption in small and large intestines of ratsEffects of DFA IV in rats: calcium absorption and metabolism of DFA IV by intestinal microorganismsKaempferol enhances intestinal barrier function through the cytoskeletal association and expression of tight junction proteins in Caco-2 cells
P50
Q24311692-532445B6-D9D9-4651-AD8E-9F923C2BA505Q33875973-9C2B3277-BF0A-4BE2-BF66-B09EBC157974Q34287155-329C058E-7B29-48DE-8DF5-AF33789BB4CEQ35047429-D3CE8B75-1852-4F56-90E2-6777310FBD10Q35048916-8A52E192-EAC0-4760-92D9-F93916AAA8B6Q35381281-38AFFFD7-EB75-44A9-8876-9382E09FCBF2Q35784213-786BA938-6508-467C-B0B0-0C092EE9E682Q37174638-65A40DFB-9672-40C7-AC83-B1D1F913A54BQ37822054-C497CCB3-827F-49A7-9B6E-D70A11D03399Q38417912-5AED5FF2-3E5E-4AD2-B02A-9198016CE7C9Q39315672-5FB84DFA-BC8A-4C30-988B-F21F83BC4AEEQ39741353-F98AE4E6-7E65-41E1-BB81-113F962B6A24Q39866527-8BAAF747-E56B-49AD-80DD-BBD16174947EQ41523945-F9B15A1C-ED18-49B0-B36E-80B32C74CEE5Q42474214-4F5721A5-BFF7-4846-BB51-CFD3956F3944Q42492832-8ABCD246-1D07-4E9D-8C12-67238A9A667AQ43210831-BB951DA3-CBF5-4529-AF84-7931AD7E6CB9Q43978867-7996D121-F535-432A-89D4-24CC16BF42C2Q45143860-F5238D25-FA2F-4F38-83F5-9ED686CCB100Q46252111-FBFD94EC-420A-4C21-BA48-0488B835C652Q46697141-C821088D-B65E-4A01-B69B-473B17B16798Q46763997-48DFC420-D968-479B-A2B9-A82E5A13CD9BQ46908235-D7E10B3D-7CBD-40E6-BF4E-1850BCAD69BBQ47297982-7C7F5E14-1361-4F75-BE84-9AADD1391935Q48238498-0D52EFE3-B46C-461E-A36D-7BFBF2F96611Q48365507-3FCFC812-0076-4ABB-9E69-3D76C4D7562EQ48478194-3113C2F7-9B8E-491C-8EA5-96B2999707ECQ50893391-C40445AA-E491-4E0D-B800-79CF678F9B04Q50947312-652BC4A3-6C17-463C-8ED0-24FB3AB850C4Q51068586-5A8EA3C8-56CF-4E49-8482-008EA7325E2CQ51760967-69746312-95E2-4EF7-8E16-C0B298CC1EA0Q52366670-6B1B8634-CD1E-4364-86EA-90E019DFCE32Q54698798-A53EBCEC-62DF-4CB0-B8EA-5EB99526F202Q57046715-87CC96AE-691C-4DC5-8F07-ED5ECF59F115Q57140159-664007B7-17FA-4560-8EB0-166F948F875EQ58718656-0B3171B7-4190-4B35-BE29-0BC8F4A971DCQ73935369-385E26B5-C54C-4277-8329-F5F26E0FEFEDQ74734656-8649B3EE-0D15-4DA5-8233-B9B81B6A8A0EQ77852048-374ECB09-B6D3-4332-918B-B6CEB14CF17BQ82414910-0944B685-7FBC-4F28-A76C-987294FA6318
P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Takuya Suzuki
@ast
Takuya Suzuki
@en
Takuya Suzuki
@es
Takuya Suzuki
@nl
Takuya Suzuki
@sl
type
label
Takuya Suzuki
@ast
Takuya Suzuki
@en
Takuya Suzuki
@es
Takuya Suzuki
@nl
Takuya Suzuki
@sl
prefLabel
Takuya Suzuki
@ast
Takuya Suzuki
@en
Takuya Suzuki
@es
Takuya Suzuki
@nl
Takuya Suzuki
@sl
P106
P1153
35782590400
P21
P31
P496
0000-0003-3709-543X