scholarly article | Q13442814 |
P50 | author | Christopher R. Weber | Q41830369 |
Dan Yu | Q58955545 | ||
P2093 | author name string | Le Shen | |
Jerrold R. Turner | |||
David R. Raleigh | |||
P2860 | cites work | Paracellin-1, a renal tight junction protein required for paracellular Mg2+ resorption | Q22010191 |
XBP1 links ER stress to intestinal inflammation and confers genetic risk for human inflammatory bowel disease | Q22252318 | ||
Tight junction-associated MARVEL proteins marveld3, tricellulin, and occludin have distinct but overlapping functions | Q24299926 | ||
Myosin phosphatase-targeting subunit 1 regulates mitosis by antagonizing polo-like kinase 1 | Q24312184 | ||
Regulation of myosin phosphatase by Rho and Rho-associated kinase (Rho-kinase) | Q24319737 | ||
Rab13 regulates PKA signaling during tight junction assembly | Q24337319 | ||
A novel claudin 16 mutation associated with childhood hypercalciuria abolishes binding to ZO-1 and results in lysosomal mistargeting | Q24532149 | ||
Interferon-gamma and tumor necrosis factor-alpha synergize to induce intestinal epithelial barrier dysfunction by up-regulating myosin light chain kinase expression | Q24536188 | ||
Deconstructing the cadherin-catenin-actin complex | Q24609677 | ||
Occludin: a novel integral membrane protein localizing at tight junctions | Q24657666 | ||
Direct association of occludin with ZO-1 and its possible involvement in the localization of occludin at tight junctions | Q24672971 | ||
Tricellulin constitutes a novel barrier at tricellular contacts of epithelial cells | Q24679401 | ||
Direct binding of three tight junction-associated MAGUKs, ZO-1, ZO-2, and ZO-3, with the COOH termini of claudins | Q24682136 | ||
A fine structural analysis of intercellular junctions in the mouse liver | Q24682661 | ||
Claudin-1 and -2: novel integral membrane proteins localizing at tight junctions with no sequence similarity to occludin | Q24682664 | ||
Manner of interaction of heterogeneous claudin species within and between tight junction strands | Q24683327 | ||
Structure of the claudin-binding domain of Clostridium perfringens enterotoxin | Q27648943 | ||
Claudin extracellular domains determine paracellular charge selectivity and resistance but not tight junction fibril architecture | Q28191564 | ||
Differential expression patterns of claudins, tight junction membrane proteins, in mouse nephron segments | Q28209952 | ||
Multifunctional strands in tight junctions | Q28210051 | ||
Claudin-2 expression induces cation-selective channels in tight junctions of epithelial cells | Q28214827 | ||
Occludin confers adhesiveness when expressed in fibroblasts | Q28239917 | ||
Physiology and function of the tight junction | Q28270069 | ||
Claudin-2-deficient mice are defective in the leaky and cation-selective paracellular permeability properties of renal proximal tubules | Q28279525 | ||
Identification of ZO-1: a high molecular weight polypeptide associated with the tight junction (zonula occludens) in a variety of epithelia | Q28299935 | ||
Regulated expression of claudin-4 decreases paracellular conductance through a selective decrease in sodium permeability | Q28365900 | ||
Effect of plant cytokinins on microfilaments and tight junction permeability | Q59056568 | ||
Evidence for the lipidic nature of tight junction strands | Q59087871 | ||
Regulation of epithelial tight junction permeability by cyclic AMP | Q59095849 | ||
Tumor necrosis factor inhibitor ameliorates murine intestinal graft-versus-host disease | Q64381640 | ||
Contribution of solvent drag through intercellular junctions to absorption of nutrients by the small intestine of the rat | Q68541193 | ||
Intestinal conductance and permselectivity changes with theophylline and choleragen | Q68854263 | ||
Increased intestinal permeability in patients with Crohn's disease and their relatives. A possible etiologic factor | Q69656337 | ||
Passive water flows driven across the isolated rabbit ileum by osmotic, hydrostatic and electrical gradients | Q70091685 | ||
Abnormal small intestinal permeability to sugars in patients with Crohn's disease of the terminal ileum and colon | Q70451456 | ||
Physiological regulation of intestinal epithelial tight junctions as a consequence of Na(+)-coupled nutrient transport | Q71737295 | ||
Intestinal permeability and the prediction of relapse in Crohn's disease | Q72220492 | ||
Interleukin-10 gene-deficient mice develop a primary intestinal permeability defect in response to enteric microflora | Q73221864 | ||
Physiological regulation of epithelial tight junctions is associated with myosin light-chain phosphorylation | Q73847660 | ||
Endoscopic and histological healing with infliximab anti-tumor necrosis factor antibodies in Crohn's disease: A European multicenter trial | Q77374966 | ||
The cytoplasmic tails of claudins can influence tight junction barrier properties through effects on protein stability | Q80561465 | ||
Regulation of heterotypic claudin compatibility | Q80797514 | ||
Claudin profiling in the mouse during postnatal intestinal development and along the gastrointestinal tract reveals complex expression patterns | Q82468003 | ||
Permeable junctional complexes. The movement of lanthanum across rabbit gallbladder and intestine | Q41161439 | ||
Effects of phlorizin and sodium on glucose-elicited alterations of cell junctions in intestinal epithelia | Q41193303 | ||
Structural basis for physiological regulation of paracellular pathways in intestinal epithelia | Q41442657 | ||
Partitioning of paracellular conductance along the ileal crypt-villus axis: a hypothesis based on structural analysis with detailed consideration of tight junction structure-function relationships | Q41577366 | ||
Modulation of tumor necrosis factor-induced increase in renal (LLC-PK1) transepithelial permeability | Q41597813 | ||
Paracellular glucose transport plays a minor role in the unanesthetized dog. | Q41611927 | ||
Permeability of the rat small intestinal epithelium along the villus-crypt axis: effects of glucose transport | Q42494774 | ||
A single gene product, claudin-1 or -2, reconstitutes tight junction strands and recruits occludin in fibroblasts | Q42796669 | ||
NHE3-dependent cytoplasmic alkalinization is triggered by Na(+)-glucose cotransport in intestinal epithelia | Q43766328 | ||
Regulation of human jejunal transmucosal resistance and MLC phosphorylation by Na(+)-glucose cotransport | Q43797549 | ||
Morphological factors influencing transepithelial permeability: A model for the resistance of theZonula Occludens | Q43798217 | ||
Intestinal permeability in patients with Crohn's disease and their healthy relatives | Q43863082 | ||
Vibrating probe analysis of teleost opercular epithelium: correlation between active transport and leak pathways of individual chloride cells | Q43956933 | ||
Freeze-etch appearance of the tight junctions in the epithelium of small and large intestine of mice. | Q44094636 | ||
Oxazolone colitis, a Th2 colitis model resembling ulcerative colitis, is mediated by IL-13-producing NK-T cells | Q44217456 | ||
Knockdown of occludin expression leads to diverse phenotypic alterations in epithelial cells. | Q45249905 | ||
Mechanism of TNF-{alpha} modulation of Caco-2 intestinal epithelial tight junction barrier: role of myosin light-chain kinase protein expression | Q45258065 | ||
ZO-1 and ZO-2 independently determine where claudins are polymerized in tight-junction strand formation. | Q45345068 | ||
A transient breach in the epithelial barrier leads to regulatory T-cell generation and resistance to experimental colitis | Q46395791 | ||
Overexpression of claudin-7 decreases the paracellular Cl- conductance and increases the paracellular Na+ conductance in LLC-PK1 cells | Q46520833 | ||
Inflammatory processes have differential effects on claudins 2, 3 and 4 in colonic epithelial cells. | Q46592696 | ||
Interferon-gamma selectively increases epithelial permeability to large molecules by activating different populations of paracellular pores | Q47608346 | ||
Autocrine regulation of epithelial permeability by hypoxia: role for polarized release of tumor necrosis factor alpha. | Q51525902 | ||
Intestinal glucose transport using perfused rat jejunum in vivo: model analysis and derivation of corrected kinetic constants. | Q52536053 | ||
Leaks in the epithelial barrier caused by spontaneous and TNF-alpha-induced single-cell apoptosis. | Q52969889 | ||
A membrane-permeant peptide that inhibits MLC kinase restores barrier function in in vitro models of intestinal disease. | Q53965794 | ||
Luminal nutrients alter tight-junction permeability in the rat jejunum: an in vivo perfusion model. | Q54042487 | ||
Cytoplasmic regulation of tight-junction permeability: effect of plant cytokinins. | Q54548198 | ||
Myosin light chain phosphorylation regulates barrier function by remodeling tight junction structure | Q57179984 | ||
JACOP, a novel plaque protein localizing at the apical junctional complex with sequence similarity to cingulin | Q28591650 | ||
Intestinal mucosal barrier function in health and disease | Q29618086 | ||
Junctional complexes in various epithelia | Q29620435 | ||
ZO-1 stabilizes the tight junction solute barrier through coupling to the perijunctional cytoskeleton | Q30157199 | ||
Occludin binds to the SH3-hinge-GuK unit of zonula occludens protein 1: potential mechanism of tight junction regulation | Q30164050 | ||
The primary defect in experimental ileitis originates from a nonhematopoietic source | Q30439653 | ||
Depletion of E-cadherin disrupts establishment but not maintenance of cell junctions in Madin-Darby canine kidney epithelial cells | Q30442081 | ||
Actin depolymerization disrupts tight junctions via caveolae-mediated endocytosis | Q30476106 | ||
Dynamic behavior of paired claudin strands within apposing plasma membranes | Q30477728 | ||
Expression, solubilization, and biochemical characterization of the tight junction transmembrane protein claudin-4. | Q30882635 | ||
Changes in expression and distribution of claudin 2, 5 and 8 lead to discontinuous tight junctions and barrier dysfunction in active Crohn's disease | Q33249005 | ||
Identification of a claudin-4 residue important for mediating the host cell binding and action of Clostridium perfringens enterotoxin | Q33557833 | ||
Molecular basis of the core structure of tight junctions | Q33685399 | ||
Epithelial myosin light chain kinase activation induces mucosal interleukin-13 expression to alter tight junction ion selectivity | Q33782512 | ||
Caveolin-1-dependent occludin endocytosis is required for TNF-induced tight junction regulation in vivo | Q33788423 | ||
MLCK-dependent exchange and actin binding region-dependent anchoring of ZO-1 regulate tight junction barrier function | Q33929240 | ||
Epithelial myosin light chain kinase-dependent barrier dysfunction mediates T cell activation-induced diarrhea in vivo | Q34014510 | ||
Occludin is required for cytokine-induced regulation of tight junction barriers | Q34043395 | ||
Mechanism of IFN-gamma-induced endocytosis of tight junction proteins: myosin II-dependent vacuolarization of the apical plasma membrane | Q34049874 | ||
Fracture faces of zonulae occludentes from "tight" and "leaky" epithelia | Q34051800 | ||
Epithelial barriers in homeostasis and disease | Q34093056 | ||
Claudins create charge-selective channels in the paracellular pathway between epithelial cells | Q34132571 | ||
Anti-tumor necrosis factor treatment restores the gut barrier in Crohn's disease | Q34145454 | ||
Cingulin, a new peripheral component of tight junctions | Q34172366 | ||
Signalling to and from tight junctions | Q34180670 | ||
Citron kinase, a Rho-dependent kinase, induces di-phosphorylation of regulatory light chain of myosin II | Q34205231 | ||
Reversal of charge selectivity in cation or anion-selective epithelial lines by expression of different claudins | Q34234275 | ||
Standing-gradient osmotic flow. A mechanism for coupling of water and solute transport in epithelia | Q34244613 | ||
Role for actin filament turnover and a myosin II motor in cytoskeleton-driven disassembly of the epithelial apical junctional complex | Q34359173 | ||
Palmitoylation of claudins is required for efficient tight-junction localization | Q34403266 | ||
Interleukin-13 is the key effector Th2 cytokine in ulcerative colitis that affects epithelial tight junctions, apoptosis, and cell restitution | Q34440722 | ||
Intestinal permeability in children with Crohn's disease and coeliac disease | Q34761994 | ||
Complex phenotype of mice lacking occludin, a component of tight junction strands. | Q34781594 | ||
Coordinated epithelial NHE3 inhibition and barrier dysfunction are required for TNF-mediated diarrhea in vivo | Q35052412 | ||
Ezrin regulates NHE3 translocation and activation after Na+-glucose cotransport. | Q35322212 | ||
Occluding junctions and cytoskeletal components in a cultured transporting epithelium | Q36202080 | ||
Increases in guinea pig small intestinal transepithelial resistance induced by osmotic loads are accompanied by rapid alterations in absorptive-cell tight-junction structure | Q36207416 | ||
Effects of cytochalasin D on occluding junctions of intestinal absorptive cells: further evidence that the cytoskeleton may influence paracellular permeability and junctional charge selectivity | Q36215124 | ||
Molecular characterization and tissue distribution of ZO-2, a tight junction protein homologous to ZO-1 and the Drosophila discs-large tumor suppressor protein | Q36233880 | ||
Occludin-deficient embryonic stem cells can differentiate into polarized epithelial cells bearing tight junctions | Q36289162 | ||
JAM-A regulates permeability and inflammation in the intestine in vivo | Q36294373 | ||
Conversion of zonulae occludentes from tight to leaky strand type by introducing claudin-2 into Madin-Darby canine kidney I cells | Q36316586 | ||
Claudin-16 and claudin-19 interact and form a cation-selective tight junction complex | Q36330886 | ||
Claudins and epithelial paracellular transport | Q36387912 | ||
The tight junction protein complex undergoes rapid and continuous molecular remodeling at steady state | Q36660697 | ||
Effect of claudins 6 and 9 on paracellular permeability in MDCK II cells | Q36977167 | ||
Claudin-1 and claudin-2 expression is elevated in inflammatory bowel disease and may contribute to early neoplastic transformation | Q36982054 | ||
Molecular basis for cation selectivity in claudin-2-based paracellular pores: identification of an electrostatic interaction site | Q37023274 | ||
LIGHT signals directly to intestinal epithelia to cause barrier dysfunction via cytoskeletal and endocytic mechanisms. | Q37259782 | ||
Targeted epithelial tight junction dysfunction causes immune activation and contributes to development of experimental colitis. | Q37266104 | ||
Tumor necrosis factor- alpha production to lipopolysaccharide stimulation by donor cells predicts the severity of experimental acute graft-versus-host disease | Q37388077 | ||
Structure-function studies of claudin extracellular domains by cysteine-scanning mutagenesis. | Q37431293 | ||
Participation of the second extracellular loop of claudin-5 in paracellular tightening against ions, small and large molecules | Q39723716 | ||
Claudin-16 affects transcellular Cl- secretion in MDCK cells | Q39837634 | ||
Molecular determinants of the interaction between Clostridium perfringens enterotoxin fragments and claudin-3. | Q39853561 | ||
The density of small tight junction pores varies among cell types and is increased by expression of claudin-2. | Q40024709 | ||
Formation of tight junction: determinants of homophilic interaction between classic claudins. | Q40087090 | ||
Claudin-8 expression in renal epithelial cells augments the paracellular barrier by replacing endogenous claudin-2. | Q40129999 | ||
Two splice variants of claudin-10 in the kidney create paracellular pores with different ion selectivities. | Q40262405 | ||
On tight-junction structure | Q40264285 | ||
Claudin-8 modulates paracellular permeability to acidic and basic ions in MDCK II cells | Q40345251 | ||
Contribution of claudin-5 to barrier properties in tight junctions of epithelial cells | Q40374324 | ||
Interferon-gamma induces internalization of epithelial tight junction proteins via a macropinocytosis-like process | Q40415725 | ||
Enteropathogenic Escherichia coli infection leads to appearance of aberrant tight junctions strands in the lateral membrane of intestinal epithelial cells | Q40538742 | ||
Claudin-8 expression in Madin-Darby canine kidney cells augments the paracellular barrier to cation permeation | Q40666802 | ||
Isolation and functional characterization of the actin binding region in the tight junction protein ZO-1. | Q40700804 | ||
Inducible expression of claudin-1-myc but not occludin-VSV-G results in aberrant tight junction strand formation in MDCK cells | Q40855515 | ||
The coiled-coil domain of occludin can act to organize structural and functional elements of the epithelial tight junction | Q40869408 | ||
Tight junctions are membrane microdomains | Q40886204 | ||
Clostridium perfringens enterotoxin fragment removes specific claudins from tight junction strands: Evidence for direct involvement of claudins in tight junction barrier. | Q40925316 | ||
Rapid reduction of MDCK cell cholesterol by methyl-beta-cyclodextrin alters steady state transepithelial electrical resistance | Q40931447 | ||
Reducing small intestinal permeability attenuates colitis in the IL10 gene-deficient mouse | Q41122462 | ||
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 283-309 | |
P577 | publication date | 2011-01-01 | |
P1433 | published in | Annual Review of Physiology | Q567364 |
P1476 | title | Tight Junction Pore and Leak Pathways: A Dynamic Duo | |
P478 | volume | 73 |
Q64094800 | -Induced Barrier Disruption Correlates With Elastase Activity and Marks Chronic Rhinosinusitis Severity |
Q64976006 | A Polysaccharide Isolated from Dictyophora indusiata Promotes Recovery from Antibiotic-Driven Intestinal Dysbiosis and Improves Gut Epithelial Barrier Function in a Mouse Model. |
Q26747503 | A Role for the Intestinal Microbiota and Virome in Myalgic Encephalomyelitis/Chronic Fatigue Syndrome (ME/CFS)? |
Q91473782 | A Simulated Microgravity Environment Causes a Sustained Defect in Epithelial Barrier Function |
Q30664644 | A complex of ZO-1 and the BAR-domain protein TOCA-1 regulates actin assembly at the tight junction |
Q42707414 | A computer model simulating human glucose absorption and metabolism in health and metabolic disease states. |
Q34130414 | A novel suspension formulation enhances intestinal absorption of macromolecules via transient and reversible transport mechanisms |
Q46554456 | A proteomics approach reveals divergent molecular responses to salinity in populations of European whitefish (Coregonus lavaretus). |
Q41889693 | AGR2 ameliorates tumor necrosis factor-α-induced epithelial barrier dysfunction via suppression of NF-κB p65-mediated MLCK/p-MLC pathway activation |
Q92070285 | Activation of Cofilin Increases Intestinal Permeability via Depolymerization of F-Actin During Hypoxia in vitro |
Q37102462 | Acute effects of rotavirus and malnutrition on intestinal barrier function in neonatal piglets |
Q46877467 | Adalimumab prevents barrier dysfunction and antagonizes distinct effects of TNF-α on tight junction proteins and signaling pathways in intestinal epithelial cells |
Q99579062 | Advanced delivery strategies facilitating oral absorption of heparins |
Q26778947 | Alcohol and the Intestine |
Q28487645 | Amelioration of IFN-γ and TNF-α-induced intestinal epithelial barrier dysfunction by berberine via suppression of MLCK-MLC phosphorylation signaling pathway |
Q90363154 | Analysis of Faecal Zonulin and Calprotectin Concentrations in Healthy Children During the First Two Years of Life. An Observational Prospective Cohort Study |
Q96686008 | Angulin-2/ILDR1, a tricellular tight junction protein, does not affect water transport in the mouse large intestine |
Q91106566 | Anionic nanoparticles enable the oral delivery of proteins by enhancing intestinal permeability |
Q27335185 | Antibiotic Treatment Affects Intestinal Permeability and Gut Microbial Composition in Wistar Rats Dependent on Antibiotic Class |
Q64949821 | Antibiotics induced intestinal tight junction barrier dysfunction is associated with microbiota dysbiosis, activated NLRP3 inflammasome and autophagy. |
Q47139275 | Apical surface supracellular mechanical properties in polarized epithelium using noninvasive acoustic force spectroscopy |
Q54209817 | Autophagy and tight junction proteins in the intestine and intestinal diseases. |
Q35172695 | Autophagy enhances intestinal epithelial tight junction barrier function by targeting claudin-2 protein degradation |
Q43355487 | BDNF modulates intestinal barrier integrity through regulating the expression of tight junction proteins |
Q40147656 | Bidirectional brain-gut interactions and chronic pathological changes after traumatic brain injury in mice |
Q46979527 | Bifidogenic effect of whole-grain wheat during a 12-week energy-restricted dietary intervention in postmenopausal women |
Q37234730 | Bladder filling and voiding affect umbrella cell tight junction organization and function |
Q35212839 | Blood cells and endothelial barrier function. |
Q92312593 | Blueberry Attenuates Liver Fibrosis, Protects Intestinal Epithelial Barrier, and Maintains Gut Microbiota Homeostasis |
Q35592017 | Bovine immunoglobulin/protein isolate binds pro-inflammatory bacterial compounds and prevents immune activation in an intestinal co-culture model |
Q33799746 | Breaking barriers. New insights into airway epithelial barrier function in health and disease |
Q50115738 | C1orf106 is a colitis risk gene that regulates stability of epithelial adherens junctions. |
Q41506361 | CK2-dependent phosphorylation of occludin regulates the interaction with ZO-proteins and tight junction integrity. |
Q34328430 | CRF induces intestinal epithelial barrier injury via the release of mast cell proteases and TNF-α. |
Q37497587 | Calcium Channels and Oxidative Stress Mediate a Synergistic Disruption of Tight Junctions by Ethanol and Acetaldehyde in Caco-2 Cell Monolayers |
Q38846512 | Calibrated flux measurements reveal a nanostructure-stimulated transcytotic pathway |
Q36281342 | Campylobacter jejuni increases flagellar expression and adhesion of noninvasive Escherichia coli: effects on enterocytic Toll-like receptor 4 and CXCL-8 expression |
Q28481315 | Capacity for absorption of water-soluble secondary metabolites greater in birds than in rodents |
Q35882706 | Carbon Monoxide-Releasing Molecule-2 Reduces Intestinal Epithelial Tight-Junction Damage and Mortality in Septic Rats |
Q90027967 | Cecropin A Modulates Tight Junction-Related Protein Expression and Enhances the Barrier Function of Porcine Intestinal Epithelial Cells by Suppressing the MEK/ERK Pathway |
Q39308269 | Cell Biology of Tight Junction Barrier Regulation and Mucosal Disease |
Q35088659 | Characterization of diverse internal binding specificities of PDZ domains by yeast two-hybrid screening of a special peptide library |
Q38717938 | Chloride channel ClC- 2 enhances intestinal epithelial tight junction barrier function via regulation of caveolin-1 and caveolar trafficking of occludin |
Q33699111 | Chlorogenic acid decreases intestinal permeability and increases expression of intestinal tight junction proteins in weaned rats challenged with LPS. |
Q89137083 | Chronic stress-associated visceral hyperalgesia correlates with severity of intestinal barrier dysfunction |
Q28066092 | ClC-2 regulation of intestinal barrier function: Translation of basic science to therapeutic target |
Q34295270 | Claudin 4 knockout mice: normal physiological phenotype with increased susceptibility to lung injury. |
Q36585920 | Claudin-2-dependent paracellular channels are dynamically gated. |
Q36736185 | Claudin-21 Has a Paracellular Channel Role at Tight Junctions |
Q46645578 | Claudin-based paracellular proton barrier in the stomach |
Q92993434 | Claudins and JAM-A coordinately regulate tight junction formation and epithelial polarity |
Q38110750 | Claudins and other tight junction proteins |
Q34787829 | Claudins and the kidney. |
Q26828514 | Claudins: Gatekeepers of lung epithelial function |
Q51013505 | Collagen peptides ameliorate intestinal epithelial barrier dysfunction in immunostimulatory Caco-2 cell monolayers via enhancing tight junctions. |
Q48217881 | Colonization of the cervicovaginal space with Gardnerella vaginalis leads to local inflammation and cervical remodeling in pregnant mice |
Q35690188 | Comparative digestive physiology |
Q26861369 | Conceptual barriers to understanding physical barriers |
Q38038634 | Continuous endocytic recycling of tight junction proteins: how and why? |
Q38700582 | Contribution of the tricellular tight junction to paracellular permeability in leaky and tight epithelia |
Q24317104 | Contribution of tight junction proteins to ion, macromolecule, and water barrier in keratinocytes |
Q39200576 | Contributions of intestinal epithelial barriers to health and disease |
Q92283062 | Cooperative Interactions between Trichomonas vaginalis and Associated Bacteria Enhance Paracellular Permeability of the Cervicovaginal Epithelium by Dysregulating Tight Junctions |
Q40359012 | Cortactin deficiency causes increased RhoA/ROCK1-dependent actomyosin contractility, intestinal epithelial barrier dysfunction, and disproportionately severe DSS-induced colitis |
Q36573670 | Corticosterone mediates stress-related increased intestinal permeability in a region-specific manner |
Q61453310 | Current progress in searching for clinically useful biomarkers of blood-brain barrier damage following cerebral ischemia |
Q92257796 | Dietary Chitooligosaccharide Inclusion as an Alternative to Antibiotics Improves Intestinal Morphology, Barrier Function, Antioxidant Capacity, and Immunity of Broilers at Early Age |
Q44864508 | Dietary long-chain PUFA enhance acute repair of ischemia-injured intestine of suckling pigs |
Q58714488 | Dietary magnesium deficiency impaired intestinal structural integrity in grass carp (Ctenopharyngodon idella) |
Q34265824 | Dietary xylo-oligosaccharide stimulates intestinal bifidobacteria and lactobacilli but has limited effect on intestinal integrity in rats |
Q51496767 | Diets high in fermentable protein and fibre alter tight junction protein composition with minor effects on barrier function in piglet colon. |
Q39090708 | Digestion of epithelial tight junction proteins by the commensal Clostridium perfringens. |
Q29028943 | Digestive Adaptations of Aerial Lifestyles |
Q39189861 | Disruption of the epithelial barrier during intestinal inflammation: Quest for new molecules and mechanisms |
Q38550878 | Drug discovery approaches to irritable bowel syndrome |
Q47806206 | Dynamic modeling of the tight junction pore pathway |
Q43121604 | Dynamic properties of the tight junction barrier |
Q62490553 | EB 2017 Article: Interpretation of the lactulose:mannitol test in rural Malawian children at risk for perturbations in intestinal permeability |
Q64231849 | Early Porcine Sapovirus Infection Disrupts Tight Junctions and Uses Occludin as a Coreceptor |
Q37018792 | Effect of High Dietary Tryptophan on Intestinal Morphology and Tight Junction Protein of Weaned Pig. |
Q45325304 | Effects of porcine epidemic diarrhea virus infection on nursery pig intestinal function and barrier integrity. |
Q83967385 | Electrogenic transport, oxygen consumption, and sensitivity to acute hypoxia of human colonic epithelium |
Q42495637 | Electrolyte transport pathways induced in the midgut epithelium of Drosophila melanogaster larvae by commensal gut microbiota and pathogens |
Q35639466 | Elevation of HO-1 Expression Mitigates Intestinal Ischemia-Reperfusion Injury and Restores Tight Junction Function in a Rat Liver Transplantation Model |
Q36309465 | Endotoxemia alters tight junction gene and protein expression in the kidney |
Q92498789 | Enhanced E. coli LF82 Translocation through the Follicle-associated Epithelium in Crohn's Disease is Dependent on Long Polar Fimbriae and CEACAM6 expression, and Increases Paracellular Permeability |
Q49418256 | Enteral nutrition combined with glutamine promotes recovery after ileal pouch-anal anastomosis in rats |
Q39139171 | Enteric Pathogens and Their Toxin-Induced Disruption of the Intestinal Barrier through Alteration of Tight Junctions in Chickens. |
Q35836695 | Enterocyte STAT5 promotes mucosal wound healing via suppression of myosin light chain kinase-mediated loss of barrier function and inflammation |
Q54964046 | Enterotoxigenic Escherichia coli infection induces tight junction proteins expression in mice. |
Q38403654 | Epidermal tight junctions in health and disease. |
Q47795925 | Epithelial Organization: The Gut and Beyond |
Q34663672 | Epithelial barrier function: at the front line of asthma immunology and allergic airway inflammation |
Q100570611 | Epithelial-mesenchymal transition of absorptive enterocytes and depletion of Peyer's patch M cells after PEDV infection |
Q53764228 | Establishment and Characterization of a Novel Caco-2 Subclone with a Similar Low Expression Level of Human Carboxylesterase 1 to Human Small Intestine. |
Q34195561 | Ethanol impairs intestinal barrier function in humans through mitogen activated protein kinase signaling: a combined in vivo and in vitro approach |
Q39385907 | Evidence and uptake routes for Zinc oxide nanoparticles through the gastrointestinal barrier in Xenopus laevis |
Q46243652 | Evidence for a role of tight junctions in regulating sodium permeability in zebrafish (Danio rerio) acclimated to ion-poor water |
Q36915469 | Evidence for multiple roles for grainyhead-like 2 in the establishment and maintenance of human mucociliary airway epithelium.[corrected]. |
Q37215871 | Exploring tight junction alteration using double fluorescent probe combination of lanthanide complex with gold nanoclusters |
Q35864628 | F-actin binding protein, anillin, regulates integrity of intercellular junctions in human epithelial cells |
Q39376100 | From clinical uncertainties to precision medicine: the emerging role of the gut barrier and microbiome in small bowel functional diseases |
Q34420883 | From intestinal permeability to dysmotility: the biobreeding rat as a model for functional gastrointestinal disorders |
Q89138010 | GPR40 receptor activation promotes tight junction assembly in airway epithelial cells via AMPK-dependent mechanisms |
Q38072903 | Gastric acid, calcium absorption, and their impact on bone health |
Q34703697 | Glucocorticoid induction of occludin expression and endothelial barrier requires transcription factor p54 NONO |
Q45743243 | Glucocorticoids regulate barrier function and claudin expression in intestinal epithelial cells via MKP-1. |
Q91826216 | Goblet cell associated antigen passages support the induction and maintenance of oral tolerance |
Q24609125 | Goblet cells deliver luminal antigen to CD103+ dendritic cells in the small intestine |
Q26828771 | Growth and Development Symposium: Endotoxin, inflammation, and intestinal function in livestock |
Q28391092 | Heme oxygenase-1 protects corexit 9500A-induced respiratory epithelial injury across species |
Q36972087 | Hepatocyte polarity |
Q41956054 | Highly conserved cysteines are involved in the oligomerization of occludin-redox dependency of the second extracellular loop. |
Q42108832 | Hippo pathway elements Co-localize with Occludin: A possible sensor system in pancreatic epithelial cells |
Q49202522 | Human small intestine is capable of restoring barrier function after short ischemic periods |
Q39277299 | Hypoxia Inducible Factor (HIF) Hydroxylases as Regulators of Intestinal Epithelial Barrier Function |
Q43184075 | IBD candidate genes and intestinal barrier regulation |
Q42042176 | Immunosuppressant MPA Modulates Tight Junction through Epigenetic Activation of MLCK/MLC-2 Pathway via p38MAPK. |
Q92472141 | Impact of viral disease hypophagia on pig jejunal function and integrity |
Q54269295 | Impaired duodenal mucosal integrity and low-grade inflammation in functional dyspepsia. |
Q91597954 | Importance of integrity of cell-cell junctions for the mechanics of confluent MDCK II cells |
Q90219194 | Improvement of growth performance and parameters of intestinal function in liquid fed early weanling pigs1 |
Q89637810 | In vivo labeling of epithelial cell-associated antigen passages in the murine intestine |
Q36382104 | Increased urothelial paracellular transport promotes cystitis |
Q36719828 | Influence of reflux and central obesity on intercellular space diameter of esophageal squamous epithelium |
Q24618791 | Intercellular adhesion molecules (ICAMs) and spermatogenesis |
Q64061607 | Interferon-λ3 Promotes Epithelial Defense and Barrier Function Against Cryptosporidium parvum Infection |
Q50661168 | Intestinal Barrier Disruption in Ileal Pouchitis After Ileal Pouch-Anal Anastomosis in a Rat Model. |
Q90369222 | Intestinal Barrier Function in Chronic Kidney Disease |
Q64229076 | Intestinal Macromolecular Transport Supporting Adaptive Immunity |
Q41036794 | Intestinal barrier dysfunction in cirrhosis: Current concepts in pathophysiology and clinical implications |
Q92356819 | Intestinal barrier dysfunction in severe burn injury |
Q38009940 | Intestinal barrier function in health and gastrointestinal disease |
Q38460376 | Intestinal barrier loss as a critical pathogenic link between inflammatory bowel disease and graft-versus-host disease |
Q38123531 | Intestinal epithelial barrier function in liver cirrhosis: an extensive review of the literature |
Q52723533 | Intestinal epithelial cell polarity defects in disease: lessons from microvillus inclusion disease. |
Q39298268 | Intestinal epithelial claudins: expression and regulation in homeostasis and inflammation |
Q24629228 | Intestinal permeability defects: is it time to treat? |
Q36238728 | Intracellular mediators of JAM-A-dependent epithelial barrier function |
Q24311647 | JAM-A associates with ZO-2, afadin, and PDZ-GEF1 to activate Rap2c and regulate epithelial barrier function |
Q38838095 | L-Glutamate Enhances Barrier and Antioxidative Functions in Intestinal Porcine Epithelial Cells |
Q35610878 | Lactobacillus fermentum ZYL0401 Attenuates Lipopolysaccharide-Induced Hepatic TNF-α Expression and Liver Injury via an IL-10- and PGE2-EP4-Dependent Mechanism |
Q39434367 | Layered defense: how mucus and tight junctions seal the intestinal barrier |
Q35698851 | Lipidoid Nanoparticles for siRNA Delivery to the Intestinal Epithelium: In Vitro Investigations in a Caco-2 Model |
Q30519492 | Local barrier dysfunction identified by confocal laser endomicroscopy predicts relapse in inflammatory bowel disease |
Q37218681 | Low Dosage of Chitosan Supplementation Improves Intestinal Permeability and Impairs Barrier Function in Mice |
Q37151738 | Low-molecular-weight fucoidan and high-stability fucoxanthin from brown seaweed exert prebiotics and anti-inflammatory activities in Caco-2 cells |
Q36057629 | MARCKS-dependent mucin clearance and lipid metabolism in ependymal cells are required for maintenance of forebrain homeostasis during aging |
Q37327077 | MMP20 modulates cadherin expression in ameloblasts as enamel develops. |
Q49171448 | Marked differences in tight junction composition and macromolecular permeability among different intestinal cell types. |
Q24338226 | MarvelD3 couples tight junctions to the MEKK1-JNK pathway to regulate cell behavior and survival |
Q42013864 | MarvelD3 regulates the c-Jun N-terminal kinase pathway during eye development in Xenopus. |
Q37716726 | Means to Facilitate the Overcoming of Gastric Juice Barrier by a Therapeutic Staphylococcal Bacteriophage A5/80. |
Q89442831 | Mechanisms and Regulation of Intestinal Phosphate Absorption |
Q37717492 | Mechanisms and pathways of Toxoplasma gondii transepithelial migration |
Q37011812 | Mechanisms of Intestinal Barrier Dysfunction in Sepsis |
Q52663659 | Melatonin attenuates neurogenic pulmonary edema via the regulation of inflammation and apoptosis after subarachnoid hemorrhage in rats. |
Q42513194 | Melatonin decreases duodenal epithelial paracellular permeability via a nicotinic receptor-dependent pathway in rats in vivo |
Q37142513 | Meprin A impairs epithelial barrier function, enhances monocyte migration, and cleaves the tight junction protein occludin. |
Q93204707 | Metformin attenuates the effect of Staphylococcus aureus on airway tight junctions by increasing PKCζ-mediated phosphorylation of occludin |
Q38328002 | MicroRNAs regulate tight junction proteins and modulate epithelial/endothelial barrier functions. |
Q34714938 | Microbial sensing by goblet cells controls immune surveillance of luminal antigens in the colon |
Q53818544 | Microbial signals drive pre-leukaemic myeloproliferation in a Tet2-deficient host. |
Q36708833 | Microgavage of zebrafish larvae |
Q52691745 | Modulation of Intestinal Paracellular Transport by Bacterial Pathogens. |
Q26852912 | Modulation of cell-cell junctional complexes by matrix metalloproteinases |
Q40079685 | Modulation of occluding junctions alters the hematopoietic niche to trigger immune activation. |
Q39607225 | Modulation of tight junction proteins in the perineurium for regional pain control. |
Q37982360 | Modulation of tight junction structure and function by kinases and phosphatases targeting occludin |
Q26864785 | Molecular aspects of tight junction barrier function |
Q57477853 | More complete polarization of renal tubular epithelial cells by artificial urine |
Q38734297 | Myosin light chain kinase knockout improves gut barrier function and confers a survival advantage in polymicrobial sepsis |
Q31057409 | Myosin light chain kinase mediates intestinal barrier disruption following burn injury |
Q38739653 | Myosin light chain kinase mediates intestinal barrier dysfunction via occludin endocytosis during anoxia/reoxygenation injury. |
Q36062835 | Myosin light chain kinase: pulling the strings of epithelial tight junction function |
Q30513859 | Myosin-X functions in polarized epithelial cells |
Q39281815 | NHERF1 and CFTR restore tight junction organisation and function in cystic fibrosis airway epithelial cells: role of ezrin and the RhoA/ROCK pathway. |
Q99560227 | Nanotopography Enhances Dynamic Remodeling of Tight Junction Proteins through Cytosolic Liquid Complexes |
Q46242347 | Nasal epithelial barrier disruption by particulate matter ≤2.5 μm via tight junction protein degradation |
Q90317473 | Near infrared readouts offer sensitive and rapid assessments of intestinal permeability and disease severity in inflammatory bowel disease models |
Q36785206 | Nonmuscle Myosin IIA Regulates Intestinal Epithelial Barrier in vivo and Plays a Protective Role During Experimental Colitis |
Q36234461 | Nonredundant roles of cytoplasmic β- and γ-actin isoforms in regulation of epithelial apical junctions |
Q26772345 | Nutritional Keys for Intestinal Barrier Modulation |
Q40563819 | Occludin Content Modulates Hydrogen Peroxide-Induced Increase in Renal Epithelial Paracellular Permeability. |
Q30009590 | Occludin OCEL-domain interactions are required for maintenance and regulation of the tight junction barrier to macromolecular flux |
Q34918139 | Occludin S408 phosphorylation regulates tight junction protein interactions and barrier function |
Q34580003 | Occludin is involved in adhesion, apoptosis, differentiation and Ca2+-homeostasis of human keratinocytes: implications for tumorigenesis |
Q35057031 | Occludin regulates macromolecule flux across the intestinal epithelial tight junction barrier |
Q89519661 | Ophiopogon Saponin C1 Inhibits Lung Tumors by Stabilizing Endothelium Permeability via Inhibition of PKCδ |
Q42352756 | Outer Membrane Vesicles and Soluble Factors Released by Probiotic Escherichia coli Nissle 1917 and Commensal ECOR63 Enhance Barrier Function by Regulating Expression of Tight Junction Proteins in Intestinal Epithelial Cells |
Q38202849 | Oxygen in the regulation of intestinal epithelial transport |
Q39785153 | PEGylated silicon nanowire coated silica microparticles for drug delivery across intestinal epithelium |
Q33779763 | Paracellular transport through healthy and cystic fibrosis bronchial epithelial cell lines--do we have a proper model? |
Q38988993 | Pathophysiology, Evaluation, and Management of Chronic Watery Diarrhea |
Q39607231 | Perspectives on tight junction research |
Q37728541 | Phosphatase regulation of intercellular junctions |
Q52366670 | Phosphorylation hotspot in the C-terminal domain of occludin regulates the dynamics of epithelial junctional complexes. |
Q36452928 | Phosphorylation of claudin-2 on serine 208 promotes membrane retention and reduces trafficking to lysosomes |
Q92677838 | Physiology of Electrolyte Transport in the Gut: Implications for Disease |
Q35739433 | Polyinosinic:polycytidylic acid induces protein kinase D-dependent disassembly of apical junctions and barrier dysfunction in airway epithelial cells |
Q34166824 | Proinflammatory cytokine-induced tight junction remodeling through dynamic self-assembly of claudins |
Q39207967 | Proinflammatory mediators disrupt glucose homeostasis in airway surface liquid |
Q36760282 | Prostasin is required for matriptase activation in intestinal epithelial cells to regulate closure of the paracellular pathway |
Q37396622 | Protection and Restitution of Gut Barrier by Probiotics: Nutritional and Clinical Implications |
Q35928397 | Protective Effects of Ferulic Acid against Heat Stress-Induced Intestinal Epithelial Barrier Dysfunction In Vitro and In Vivo |
Q61812360 | Protective Effects of Live Combined and in Polymicrobial Sepsis Through Modulating Activation and Transformation of Macrophages and Mast Cells |
Q94453282 | Protective effect of emodin on intestinal epithelial tight junction barrier integrity in rats with sepsis induced by cecal ligation and puncture |
Q26865861 | Pulmonary epithelial barrier function: some new players and mechanisms |
Q92785707 | R40.76 binds to the α domain of ZO-1: role of ZO-1 (α+) in epithelial differentiation and mechano-sensing |
Q38978743 | Redox-sensitive structure and function of the first extracellular loop of the cell-cell contact protein claudin-1: lessons from molecular structure to animals |
Q35846716 | Regulation of epithelial permeability by the actin cytoskeleton |
Q38141920 | Regulation of paracellular permeability: factors and mechanisms. |
Q34442093 | Renal control of calcium, phosphate, and magnesium homeostasis |
Q90507291 | Respiratory microbiome and epithelial interactions shape immunity in the lungs |
Q49936255 | Resveratrol alleviates heat stress-induced impairment of intestinal morphology, microflora, and barrier integrity in broilers |
Q91656937 | Rho Flares Repair Local Tight Junction Leaks |
Q39212077 | Rho GTPases and actomyosin: Partners in regulating epithelial cell-cell junction structure and function |
Q37194601 | Role of autophagy in the regulation of epithelial cell junctions |
Q34888133 | Role of claudin species-specific dynamics in reconstitution and remodeling of the zonula occludens |
Q26827692 | Role of enteric neurotransmission in host defense and protection of the gastrointestinal tract |
Q58603309 | Role of gut microbiota in intestinal wound healing and barrier function |
Q93086454 | SGEF forms a complex with Scribble and Dlg1 and regulates epithelial junctions and contractility |
Q40630977 | Salmosan, a β-Galactomannan-Rich Product, Protects Epithelial Barrier Function in Caco-2 Cells Infected by Salmonella enterica Serovar Enteritidis |
Q39407147 | Scaffolding proteins in the development and maintenance of the epidermal permeability barrier |
Q34425563 | Serotonergic reinforcement of intestinal barrier function is impaired in irritable bowel syndrome. |
Q91942859 | Severe burn injury alters intestinal microbiota composition and impairs intestinal barrier in mice |
Q41808104 | Shape effect in the design of nanowire-coated microparticles as transepithelial drug delivery devices |
Q35118493 | Simultaneous gas-chromatographic urinary measurement of sugar probes to assess intestinal permeability: use of time course analysis to optimize its use to assess regional gut permeability |
Q34850153 | Sorting nexin 27 (SNX27) associates with zonula occludens-2 (ZO-2) and modulates the epithelial tight junction |
Q37224841 | Specificity, Size, and Frequency of Spaces That Characterize the Mechanism of Bulk Transepithelial Transport of Prions in the Nasal Cavities of Hamsters and Mice |
Q64065025 | Structural dynamics of tight junctions modulate the properties of the epithelial barrier |
Q39944908 | Subacute stress and chronic stress interact to decrease intestinal barrier function in rats. |
Q35043980 | TGFβs modulate permeability of the blood-epididymis barrier in an in vitro model |
Q34059619 | TNFAIP3 maintains intestinal barrier function and supports epithelial cell tight junctions |
Q37042932 | TNFR2 activates MLCK-dependent tight junction dysregulation to cause apoptosis-mediated barrier loss and experimental colitis. |
Q39134068 | Targeting the Mucosal Barrier: How Pathogens Modulate the Cellular Polarity Network |
Q93216356 | Targeting zonulin and intestinal epithelial barrier function to prevent onset of arthritis |
Q89771573 | Teduglutide Promotes Epithelial Tight Junction Pore Function in Murine Short Bowel Syndrome to Alleviate Intestinal Insufficiency |
Q34583490 | The Cap1-claudin-4 regulatory pathway is important for renal chloride reabsorption and blood pressure regulation |
Q34769606 | The EhCPADH112 complex of Entamoeba histolytica interacts with tight junction proteins occludin and claudin-1 to produce epithelial damage |
Q89552148 | The Integral Role of Tight Junction Proteins in the Repair of Injured Intestinal Epithelium |
Q36832696 | The N and C termini of ZO-1 are surrounded by distinct proteins and functional protein networks |
Q56968515 | The Sandwich Assay: A Method for Subcellular Visualization of Paracellular Macromolecule Passage in Epithelial Sheets |
Q89965220 | The Uptake, Trafficking, and Biodistribution of Bacteroides thetaiotaomicron Generated Outer Membrane Vesicles |
Q38134725 | The blood-brain barrier: an engineering perspective. |
Q28395237 | The blood-testis barrier and its implications for male contraception |
Q91722641 | The cerebral cavernous malformation disease causing gene KRIT1 participates in intestinal epithelial barrier maintenance and regulation |
Q34277822 | The inner foreskin of healthy males at risk of HIV infection harbors epithelial CD4+ CCR5+ cells and has features of an inflamed epidermal barrier |
Q39009998 | The intestinal epithelial barrier: a therapeutic target? |
Q90499640 | The mechanobiology of tight junctions |
Q39071909 | The mucosal barrier at a glance. |
Q97093738 | The past, present and future of intestinal in vitro cell systems for drug absorption studies |
Q27007776 | The role of Haptoglobin and its related protein, Zonulin, in inflammatory bowel disease |
Q34665037 | The role of IgG hypersensitivity in the pathogenesis and therapy of depressive disorders. |
Q38184626 | The role of innate and lymphoid IL-22-producing cells in the immunopathology of primary Sjögren's syndrome. |
Q34617424 | The role of molecular remodeling in differential regulation of tight junction permeability |
Q38753779 | The serine protease-mediated increase in intestinal epithelial barrier function is dependent on occludin and requires an intact tight junction |
Q40864710 | Tight Junction Ultrastructure Alterations in a Mouse Model of Enteral Nutrient Deprivation. |
Q38017702 | Tight junction in blood-brain barrier: an overview of structure, regulation, and regulator substances |
Q39363574 | Tight junctions of the proximal tubule and their channel proteins |
Q89744172 | Total Flavonoid Extract from Hawthorn (Crataegus pinnatifida) Improves Inflammatory Cytokines-Evoked Epithelial Barrier Deficit |
Q90296333 | Total polysaccharides of the Sijunzi decoction attenuate tumor necrosis factor-α-induced damage to the barrier function of a Caco-2 cell monolayer via the nuclear factor-κB-myosin light chain kinase-myosin light chain pathway |
Q36307543 | Transcriptomic profile of leg muscle during early growth in chicken. |
Q38079085 | Transepithelial antigen delivery in the small intestine: different paths, different outcomes |
Q41662112 | Tricellular junctions: how to build junctions at the TRICkiest points of epithelial cells |
Q35539714 | Tricellulin and its role in the epididymal epithelium of the rat. |
Q48157550 | Tumor Necrosis Factor-α Increases Claudin-1, 4, and 7 Expression in Tubular Cells: Role in Permeability Changes |
Q39309675 | VIP and Mast Cells Regulate Increased Passage of Colonic Bacteria in Patients With Irritable Bowel Syndrome. |
Q64940620 | Villus Growth, Increased Intestinal Epithelial Sodium Selectivity, and Hyperaldosteronism Are Mechanisms of Adaptation in a Murine Model of Short Bowel Syndrome. |
Q34289114 | West Nile virus infection causes endocytosis of a specific subset of tight junction membrane proteins |
Q92782333 | YTHDF2 promotes spermagonial adhesion through modulating MMPs decay via m6A/mRNA pathway |
Q42483722 | ZO-1 and -2 Are Required for TRPV1-Modulated Paracellular Permeability |
Q33721589 | ZO-1 and ZO-2 are required for extra-embryonic endoderm integrity, primitive ectoderm survival and normal cavitation in embryoid bodies derived from mouse embryonic stem cells |
Q89009852 | ZO-1 protein is required for hydrogen peroxide to increase MDCK cell paracellular permeability in an ERK 1/2-dependent manner |
Q37132493 | ZO-1 recruitment to α-catenin--a novel mechanism for coupling the assembly of tight junctions to adherens junctions |
Q47206121 | Zinc ions regulate opening of tight junction favouring efflux of macromolecules via the GSK3β/snail-mediated pathway |
Q35756679 | Zonula occludens-1 and -2 regulate apical cell structure and the zonula adherens cytoskeleton in polarized epithelia |
Q47390338 | claudin-10 isoform expression and cation selectivity change with salinity in salt-secreting epithelia of Fundulusheteroclitus |
Q54473221 | src family kinases regulate renal epithelial paracellular permeability barrier through an occludin-independent mechanism. |
Search more.