J Stafford scite author profile

We describe a model to study the effects of polymorphonuclear leukocyte (PMN) transmigration on the intestinal epithelial barrier. Human PMN were induced to transmigrate across high resistance monolayers of a cultured human intestinal epithelial cell line (T84 cells) by chemotactic gradients produced by formyl methionyl leucyl phenylalanine (FMLP). With maximal transmigration monolayer resistance decreased by 48±12.6% in 15 min and by 83±1.6% in 60 min. This response was dependent on the size of the FMLP gradient and the density of PMN transmigration. The decrease in resistance correlated with number of PMN migrating across monolayers, and was accompanied by increases in flux of paracellular tracers. Macromolecular tracer studies localized the leak sites to foci at which PMN impaled the epithelium. Removal of the chemotactic gradient led to restoration of baseline resistance within 18 h. PMN transmigration across intestinal epithelial monolayers occurs via intercellular occluding junctions and may be associated with a reversible increase in epithelial permeability.

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Structural Analysis of a Human Intestinal Epithelial Cell Line

Madara¹,

Stafford²,

et al. 1987

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Functional coupling of tight junctions and microfilaments in T84 monolayers

Madara

Stafford

Barenberg

et al. 1988

American Journal of Physiology-Gastrointestinal and Liver Physi

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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.

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J Stafford

Interferon-gamma directly affects barrier function of cultured intestinal epithelial monolayers.

Effects of polymorphonuclear leukocyte transmigration on the barrier function of cultured intestinal epithelial monolayers.

Structural Analysis of a Human Intestinal Epithelial Cell Line

Functional coupling of tight junctions and microfilaments in T84 monolayers

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