scholarly journals Gryllus bimaculatus Extract Protects against Lipopolysaccharide-Derived Inflammatory Response in Human Colon Epithelial Caco-2 Cells

Insects ◽  
2021 ◽  
Vol 12 (10) ◽  
pp. 873
Author(s):  
Kyong Kim ◽  
Eun-Young Park ◽  
Dong-Jae Baek ◽  
Se-Eun Jang ◽  
Yoon-Sin Oh
Keyword(s):  
Tight Junction ◽  
Inflammatory Mediators ◽  
Human Colon ◽  
Intestinal Epithelial ◽  
Gryllus Bimaculatus ◽  
Expression Levels ◽  
Mrna And Protein Expression ◽  
Tight Junction Permeability ◽  
Inflammatory Bowel ◽  
Lps Treatment

Increased tight junction permeability and overproduction of proinflammatory cytokines are crucial pathophysiological mechanisms in inflammatory bowel disease (IBD). This study evaluated anti-inflammatory effects of aqueous ethanolic Gryllus bimaculatus extract (AE-GBE) against intestinal permeability on lipopolysaccharide (LPS)-treated Caco-2 cells. Treatment with AE-GBE increased cell viability and significantly reduced inflammatory mediators such as nitric oxide and LPS-induced reactive oxidative stress. LPS increased the expression levels of iNOS, Cox-2, and 4-hydroxylnonenal; however, these levels were attenuated by AE-GBE treatment. Moreover, the mRNA and protein expression levels of the inflammatory cytokines TNFα, IL-6, IL-1β, and IFNγ were increased by LPS, but were significantly reduced by AE-GBE treatment. Intestinal epithelial permeability and the related expression of the proteins Zoula ocludence-1, occludin, and claudin-1 was increased by LPS treatment, and this effect was significantly reduced by AE-GBE treatment. The reduction in AMPK phosphorylation in LPS-treated Caco-2 cells was reversed in activation by co-treatment with AE-GBE. In conclusion, AE-GBE can protect epithelial cells from LPS-induced impaired barrier integrity by increasing tight junction proteins and preventing various inflammatory mediators. Thus, AE-GBE has the potential to improve inflammation-related diseases, including IBD, by inhibiting excessive production of inflammation-inducing mediators.

FK506 BINDING PROTEIN 8 (FKBP8) INTERACTIONS WITH MYOSIN LIGHT CHAIN KINASE 1 ARE REQUIRED FOR TNF-INDUCED TIGHT JUNCTION BARRIER LOSS

2021 ◽  
Vol 27 (Supplement_1) ◽  
pp. S25-S25
Author(s):  
Li Zuo ◽  
Feng Cao ◽  
Wei-Ting Kuo ◽  
Jerrold Turner
Keyword(s):  
Tight Junction ◽  
Light Chain ◽  
Myosin Light Chain Kinase ◽  
Myosin Light Chain ◽  
Intestinal Barrier ◽  
Intestinal Epithelial ◽  
Binding Interaction ◽  
Chaperone Protein ◽  
Tight Junction Permeability ◽  
Mlc Phosphorylation

Abstract Background Tumor necrosis factor (TNF) regulates intestinal epithelial tight junction permeability by activating myosin light chain kinase 1 (MLCK1) expression and enzymatic activity. MLCK1 recruitment to the apical perijunctional actomyosin ring (PAMR) is, however, required for barrier regulation; Divertin, a small molecule drug that blocks this recruitment, prevents barrier loss and attenuates both acute and chronic experimental diarrheal disease. We therefore hypothesized that MLCK1 recruitment to the PAMR requires interactions with as yet unidentified chaperone protein(s). Objective To identify binding partners and define the mechanisms by which they activate MLCK1 recruitment to the PAMR. Results We performed a yeast-2-hybrid (Y2H) screen using the MLCK1 domains required for PAMR recruitment as bait. FKBP8, which encodes a peptidyl-prolyl cis-trans isomerase (PPI), was recovered, and direct binding to the MLCK1 domains (Kd=~5mM) was confirmed using microscale thermophoresis (MST). This binding interaction required the FK506-binding PPI domain and was specifically inhibited by FK506 (tacrolimus). Immunofluorescent microscopy demonstrated partial colocalization of MLCK1 and FKBP8 within intestinal epithelial monolayers; TNF caused both to concentrate around the PAMR. To further characterize this interaction, we performed proximity ligation assays (PLA) and found that TNF increased interaction between MLCK1 and FKBP8 > 2-fold. FK506 prevented TNF-induced increases in PLA signal. FK506 was also able to reverse TNF-induced increases in myosin light chain (MLC) phosphorylation and tight junction permeability. In Caco-2 monolayers, FKBP8 knockout blocked TNF-induced MLCK1 recruitment, MLC phosphorylation, and tight junction barrier loss; all of which were restored by FKBP8 re-expression. In mice, MLC phosphorylation and intestinal barrier loss triggered by acute, anti-CD3-induced, T cell activation were blocked by luminal FK506. Importantly, this local FK506 treatment did not prevent anti-CD3-induced increases in mucosal TNF, IL-1b, and IFNg. Immunostains of biopsies from IBD patients documented increased PAMR MLC phosphorylation, MLCK1 recruitment, FKBP8 recruitment, and MLCK1-FKBP8 PLA signal relative to control subjects. Conclusions FKBP8 is a chaperone protein required for TNF-induced MLCK1 recruitment and barrier loss. This requires direct interaction between MLCK1 and the PPI domain of FKBP8. FK506 binding to the PPI domain displaces MLCK1 thereby preventing recruitment to the PAMR and barrier loss. These activities are separate from the immunosuppressive effects of FK506. We speculate that molecular blockade of the FKBP8-MLCK1 interaction may be a novel approach to barrier restoration and therapy of diseases associated with intestinal barrier dysfunction. Support NIH (DK068271, DK061931) and the NNSF of China (81800464, 82070548).

Functional coupling of tight junctions and microfilaments in T84 monolayers

1988 ◽  
Vol 254 (3) ◽  
pp. G416-G423 ◽  
Author(s):  
J. L. Madara ◽  
J. Stafford ◽  
D. Barenberg ◽  
S. Carlson
Keyword(s):  
Tight Junction ◽  
Actin Binding ◽  
Functional Coupling ◽  
Flux Analysis ◽  
Intestinal Epithelial ◽  
Binding Agent ◽  
T84 Cells ◽  
Intestinal Epithelia ◽  
Tight Junction Permeability ◽  
Cd Exposure

The actin-binding agent cytochalasin D (CD) in intact intestinal epithelium appears to elicit segmentation and contraction of a perijunctional ring of actomyosin and, consequently, to diminish tight junction resistance. We determined if an intestinal epithelial model composed of T84 cells also displayed such a perijunctional cytoskeletal specialization and, if so, whether exposure to CD also affected the tight junction barrier. We find T84 cells display a prominent perijunctional microfilament ring that is actin rich. CD elicits large decreases in transepithelial resistance due specifically to perturbed tight junction permeability as determined with dual Na+-mannitol flux analysis. Transepithelial mannitol and insulin fluxes also increase after CD exposure, but these molecules remain differentially restricted in accordance with their sizes, indicating that gross disruption of the monolayer has not occurred. Structurally, CD elicits segmentation and condensation of the perijunctional ring into actin-rich plaques. These features have similarity to those seen in native intestinal epithelia. This system may represent a simple model for studies of cytoskeletal-tight junction relationships.

scholarly journals Development of a human primary gut-on-a-chip to model inflammatory processes

2020 ◽  
Vol 10 (1) ◽  
Author(s):  
Claudia Beaurivage ◽  
Auste Kanapeckaite ◽  
Cindy Loomans ◽  
Kai S. Erdmann ◽  
Jan Stallen ◽  
...  
Keyword(s):  
Human Colon ◽  
In Vitro Models ◽  
Intestinal Epithelial ◽  
Activated Macrophages ◽  
Polarized Secretion ◽  
Inflammatory Processes ◽  
Inflammatory Bowel ◽  
Key Aspects

AbstractInflammatory bowel disease (IBD) is a complex multi-factorial disease for which physiologically relevant in vitro models are lacking. Existing models are often a compromise between biological relevance and scalability. Here, we integrated intestinal epithelial cells (IEC) derived from human intestinal organoids with monocyte-derived macrophages, in a gut-on-a-chip platform to model the human intestine and key aspects of IBD. The microfluidic culture of IEC lead to an increased polarization and differentiation state that closely resembled the expression profile of human colon in vivo. Activation of the model resulted in the polarized secretion of CXCL10, IL-8 and CCL-20 by IEC and could efficiently be prevented by TPCA-1 exposure. Importantly, upregulated gene expression by the inflammatory trigger correlated with dysregulated pathways in IBD patients. Finally, integration of activated macrophages offers a first-step towards a multi-factorial amenable IBD platform that could be scaled up to assess compound efficacy at early stages of drug development or in personalized medicine.

Bisphosphonates increase tight junction permeability in the human intestinal epithelial (Caco-2) model

1995 ◽  
Vol 123 (1) ◽  
pp. 13-24 ◽  
Author(s):  
Xavier Boulenc ◽  
Claude Roques ◽  
Henri Joyeux ◽  
Yves Berger ◽  
Gérard Fabre
Keyword(s):  
Tight Junction ◽  
Intestinal Epithelial ◽  
Tight Junction Permeability

Enteroids Derived From Inflammatory Bowel Disease Patients Display Dysregulated Endoplasmic Reticulum Stress Pathways, Leading to Differential Inflammatory Responses and Dendritic Cell Maturation

2019 ◽  
Vol 14 (7) ◽  
pp. 948-961 ◽  
Author(s):  
William D Rees ◽  
Martin Stahl ◽  
Kevan Jacobson ◽  
Brian Bressler ◽  
Laura M Sly ◽  
...  
Keyword(s):  
Inflammatory Bowel Disease ◽  
Endoplasmic Reticulum ◽  
Er Stress ◽  
Bowel Disease ◽  
Inflammatory Responses ◽  
Human Colon ◽  
Intestinal Epithelial ◽  
Stress Changes ◽  
Inflammatory Bowel ◽  
Stress Pathway

Abstract Background and Aims Endoplasmic reticulum [ER] stress in intestinal epithelial cells [IECs] contributes to the pathogenesis of inflammatory bowel disease [IBD]. We hypothesized that ER stress changes innate signalling in human IECs, augmenting toll-like receptor [TLR] responses and inducing pro-inflammatory changes in underlying dendritic cells [DCs]. Methods Caco-2 cells and primary human colon-derived enteroid monolayers were exposed to ATP [control stressor] or thapsigargin [Tg] [ER stress inducer], and were stimulated with the TLR5 agonist flagellin. Cytokine release was measured by an enzyme immunoassay. ER stress markers CHOP, GRP78 and XBP1s/u were measured via quantitative PCR and Western blot. Monocyte-derived DCs [moDCs] were cultured with the IEC supernatants and their activation state was measured. Responses from enteroids derived from IBD patients and healthy control participants were compared. Results ER stress enhanced flagellin-induced IL-8 release from Caco-2 cells and enteroids. Moreover, conditioned media activated DCs to become pro-inflammatory, with increased expression of CD80, CD86, MHCII, IL-6, IL-15 and IL-12p70 and decreased expression of CD103 and IL-10. Flagellin-induced IL-8 production correlated with DC activation, suggesting a common stress pathway. Moreover, there were distinct differences in cytokine expression and basal ER stress between IBD and healthy subject-derived enteroid monolayers, suggesting a dysregulated ER stress pathway in IBD-derived enteroids. Conclusions Cellular stress enhances TLR5 responses in IECs, leading to increased DC activation, indicating a previously unknown mechanistic link between epithelial ER stress and immune activation in IBD. Furthermore, dysregulated ER stress may be propagated from the intestinal epithelial stem cell niche in IBD patients.

scholarly journals Human enteric viruses shape disease phenotype through divergent innate immunomodulation

2021 ◽  
Author(s):  
Kate L. Jeffrey ◽  
Fatemeh Adiliaghdam ◽  
Hajera Amatullah ◽  
Sreehaas Digumarthi ◽  
Tahnee L. Saunders ◽  
...  
Keyword(s):  
Intestinal Inflammation ◽  
Human Colon ◽  
Intestinal Epithelial ◽  
Loss Of Function ◽  
Colon Tissue ◽  
Disease Phenotypes ◽  
Innate Recognition ◽  
Normal Human ◽  
Inflammatory Bowel ◽  
Bacteria And Fungi

Altered enteric microorganisms in concert with host genetics shape inflammatory bowel disease (IBD) phenotypes. However, insight is limited to bacteria and fungi. We found virus like particles (VLPs) enriched from normal human colon resections, containing eukaryotic viruses and bacteriophages (collectively, the virome), actively elicited atypical anti-inflammatory innate immune programs. Conversely, IBD patient VLPs provoked inflammation, which was successfully dampened by healthy VLPs. The IBD colon tissue virome was perturbed, including enriched Picornovirus Enterovirus B, not previously observed in fecal virome studies. Mice with humanized healthy colon tissue viromes had attenuated intestinal inflammation while those with IBD-derived viromes exhibited exacerbated inflammation in a nucleic acid sensing-dependent fashion. Furthermore, there were detrimental consequences for IBD-associated MDA5 loss-of-function on patient intestinal epithelial cells exposed to healthy or IBD viromes. Our results demonstrate that innate recognition of either healthy or IBD human viromes autonomously influences disease phenotypes in IBD. Harnessing the virome may offer therapeutic and biomarker potential.

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