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Madin-Darby canine kidney cell model

LLC-PKi Porcine kidney cell line used as absorption model MDCK Madin-Darby canine kidney cell line used as absorption model... [Pg.329]

The purpose of this chapter is to present overviews of a selection of the major endothelial and epithelial barriers to drug delivery for which there are either primary culture or cell line systems that recapitulate the characteristics of the in vivo barrier. Our objective is to define some general characteristics of cell culture models and highlight the more commonly applied primary cell cultures and cell lines in use today. Specifically, we focus on cell culture models for the intestinal epithelium, blood-brain barrier, pulmonary and nasal epithelium, ocular epithelium, placental barrier, and renal epithelium. Renal epithelium was included here primarily because some cell lines derived from this tissue [e.g., Madin-Darby canine kidney cells (MDCK)] are often used as surrogates for other barriers by pharmaceutical scientists. We have arbitrarily chosen to exclude the skin and liver from the scope of this overview. However, it should be noted that hepatocyte cell culture models, for example, are becoming more widely available and have been the subject of recent reviews.1,2... [Pg.104]

The most commonly used cell culture model today is the 21-day Caco-2 human colonic cell line derived from a human adenocarcinoma. They can be cultured in special transwell cell culture plates (Figure 9) that enable the investigation of passive diffusion (apical to basolateral side) and active transport (basolateral to apical side). Although the system has its limitations, for many compounds it can give a good indication of likely in vivo absorption. An alternative cell culture, which has been shown to correlate well with absorption in vivo and permeability in Caco-2 cultures, is the 3-day Madin-Darby canine kidney cell line. Also, the expression of transporter proteins in cell cultures has led to new screens being established for identifying transporter substrates. [Pg.881]

The use of a faster-growing cell line, MDCK (Madin-Darby canine kidney) cells, appears to be a good replacement for Caco-2 cells (Irvine et al. 1999). The parallel artificial membrane permeation assay (PAMPA) is a rapid in vitro assay, in which transcellular permeation is evaluated (Kansy et al. 1998). PAMPA may also be used to predict oral absorption, blood-brain barrier penetration, and human skin permeability (Fujikawa et al. 2007) by using QSAR models. To our knowledge, neither PAMPA, Caco-2 cell monolayers nor MDCK cells have been used to examine the absorption/permeability of the pyrethroids. The advantages and limitations of the Caco-2 model were reviewed by Artursson et al. (1996) and Delie and Rubas (1997). [Pg.27]

Cho MJ, DP Thompson, CT Cramer, T Vidmar, JF Scieszka. (1989). The Madin-Darby canine kidney (MDCK) epithelial cell monolayer as a model cellular transport barrier. Pharm Res 6 71-77. [Pg.330]

VolSurf was also successfully applied in the literature to predict absorption properties [156] from experimental drug permeability data of 55 compounds [165] in Caco-2 cells (human intestinal epithelial cell line derived from a colorectal carcinoma) and MDCK cell monolayers (Madin-Darby canine kidney). In this interesting case, it was shown that models including counterions for charged molecules clearly show significantly better quality and overall performance. The final model was also able to correctly predict, to a great extent, the relative ranking of molecules from another Caco-2 permeability study by Yazdanian et al. ]166]. [Pg.353]

To meet the need of conducting HTS for ADME-Tox properties, many slow and expensive in vivo ADME assays are now being replaced by in vitro cell models. For intestinal absorption, Caco-2 cell lines and Madin Darby canine kidney (MDCK) cell lines are widely used to predict the absorption rate of candidate drug compounds across the intestinal epithelial cell barrier. A number of models for Caco-2 cell permeability and MDCK cell permeability have been reported that predict the oral absorption properties of drugs, mostly limited to small organic molecules. Caco-2 and MDCK permeability are related to "A" and "D" in the ADME-Tox. [Pg.108]

In this contribution a population balance model of influenza A vims replication during vaccine production in Madin-Darby canine kidney (MDCK) cell cultures is developed. Differentiation on the population level is described by a degree of infection, which is proportional to the amount of intracellular viral proteins. This can be measured directly using flow cytometry. It is shown that the model shows reasonable agreement with experimental data, although not all details of the inner dynamics can be fully reproduced. [Pg.133]

Drug absorption generally occurs either through passive transcellular or paracellu-lar diffusion, active carrier transport, or active efflux mechanisms. Several methods have been developed to aid in the understanding of the absorption of new lead compotmds. The most common ones use an immortalized cell line (e.g., Caco-2, Madin-Darby canine kidney, and the like) to mimic the intestinal epithelium. These in vitro models provide more predictive permeability information than the artificial membrane systems (i.e., PAMPA and permeability assays, described previously) based on the cells ability to promote (active transport) or resist (efflux) transport. Various in vitro methods are listed in the U.S. FDA guidelines. These are acceptable to evaluate the permeability of a drug substance, and includes a monolayer of suitable epithelial cells, and one such epithelial cell line that has been widely used as a model system of intestinal permeability is the Caco-2 cell line. [Pg.150]

These models consist of cells grown on permeable inserts. Transport of compounds across the cell monolayer can be used to quantitate the permeability of a new chemical entity in a rapid manner. One of the most popular cell lines is Caco-2, derived from human colon adenocarcinoma cells. The monolayer exhibits ion conductance and possesses transepithellal electrical resistance indicative of fully formed tight junctions that restrict the paracellular transport of a chemical entity. Although Caco-2 cells are the most commonly used cells, Madin-Darby Canine Kidney (MDCK) cells are becoming more widespread in use, in part because of the shorter culture time (4-7 days versus 21-30 days for Caco-2 cells) needed for their use in permeability experiments. [Pg.363]

Madin-Darby Canine Kidney (MDCK) Cell Model... [Pg.799]

The Madin-Darby canine kidney (MDCK) cell model is another commonly used cell monolayer system for the assessment of human intestinal absorption. MDCK cell lines offer a couple of key advantages over Caco-2 cells, including the ability to reach full differentiation in 3-7 days (as opposed to 21 days for Caco-2) as well as the ability to be co-transfected with Pgp, the primary intestinal efflux transporter. Good correlation has been observed between MDCK permeability and human absorption. " The primary disadvantage of the MDCK ceU line is that it is derived from canine, rather than human, cells and, as such, expression of transporters and metaboUzing enzymes is not identical. [Pg.805]


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