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Epithelium tight junctions

The in vitro system we have been using to study the transepithelial transport is cultured Madin-Darby canine kidney (MDCK) epithelial cells (11). When cultured on microporous polycarbonate filters (Transwell, Costar, Cambridge, MA), MDCK cells will develop into monolayers mimicking the mucosal epithelium (11). When these cells reach confluence, tight junctions will be established between the cells, and free diffusion of solutes across the cell monolayer will be markedly inhibited. Tight junction formation can be monitored by measuring the transepithelial electrical resistance (TEER) across the cell monolayers. In Figure 1, MDCK cells were seeded at 2 X 104 cells per well in Transwells (0.4 p pore size) as described previously. TEER and 14C-sucrose transport were measured daily. To determine 14C-sucrose... [Pg.121]

Bhat, M. Toledo-Velasquez, D. Wang, L. Y. Malanga, C. J. Ma, J. K. H. Rojanasakul, Y., Regulation of tight junction permeability by calcium mediators and cell cytoskeleton in rabbit tracheal epithelium, Pharm. Res. 10, 991-997 (1993). [Pg.255]

Cultured nasal cells are reliable models for drug transport and metabolism studies, since they are known to express important biological features (e.g. tight junctions, mucin secretion, cilia, and various transporters), resembling those found in vivo systems. Moreover, easy control of experimental conditions as well as separation of the permeation step from the subsequent absorption cascade is also possible. A relatively simple primary culture condition using human nasal epithelial cells for in vitro drug transport studies has been established and applied in transport and metabolism studies of drugs. It is known that the culture condition and/or selection of culture media are critical in the recapitulation of well-differentiation features of in vivo nasal mucosal epithelium [46],... [Pg.223]

Reconstituted HCE (order no. RHC/S/5) is available from Skinethic, Nice, France. It consists of transformed human corneal epithelial cells immortalized by Roger Beuerman from the Louisiana State University-Eye Center, New Orleans, USA. This reconstituted human corneal epithelium forms a multilayered cell culture model that does not exhibit tight junctions and is therefore unsuitable for in vitro drug transport studies. Main focus of the model is eye irritation and toxicity testing and it is commonly used in this area with good prediction qualities. Major advantage of this model is the high reproducibility and uniform appearance. The commercial availability provides a ready-to-use model that is easy to handle. [Pg.293]

Gorodeski GI, Peterson D, De Santis BJ, and Hopfer U [1996] Nucleotide-receptor mediated decrease of tight-junctional permeability in cultured human cervical epithelium. Am J Physiol 270 C1715-C1725... [Pg.358]

Gorodeski GI and Goldfarb J [1998] Seminal fluid factor increases the resistance of the tight junctional complex of the cultured human cervical epithelium CaSki. Fertil Steril 69 309-317... [Pg.359]

Zhu L, Li X, Zeng R, and Gorodeski GI [2006] Changes in tight junctional resistance of the cervical epithelium are associated with modulation of content and phosphorylation of occludin 65 kDa and 50 kDa forms. Endocrinology... [Pg.360]

Cell monolayers grown on permeable culture inserts form confluent mono-layers with barrier properties and can be used for drug absorption experiments. The most well-known cell line for the in vitro determination of intestinal drug permeability is the human colon adenocarcinoma Caco-2 [20, 21], The utility of the Caco-2 cell line is due to its spontaneous differentiation to enterocytes under conventional cell culture conditions upon reaching confluency on a porous membrane to resemble the intestinal epithelium. This cell model displays small intestinal carriers, brush borders, villous cell model, tight junctions, and high resistance [22], Caco-2 cells express active transport systems, brush border enzymes, and phase I and II enzymes [22-24], Permeability models... [Pg.670]

Other cell lines used in permeability studies include the T84 human colonic adenocarcinoma colonic crypt cell model. This line has a reduced carrier expression, secrets mucus, and has very high resistance [31, 32], The IEC cell line is a rat fetal intestinal epithelium cell with higher permeabilities than Caco-2 cells [33], LLC PKi is a pig kidney epithelial cell line with low expression of efflux systems, but expression systems for transport proteins [32], 2/4/A1 cells are a conditionally immortalized rat fetal intestinal epithelium line with crypt cell-like morphology and temperature-sensitive differentiation [34], They form differentiated monolayers with tight junctions, increased brush border enzymes when grown on extracellular matrices with laminin. Transport of drugs with LP in 2/4/A1 monolayers was comparable to that in the human jejunum and up to 300 times faster than that in Caco-2 monolayers. In contrast, the permeability of HP drugs was comparable in both cell lines [34],... [Pg.671]

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