Abstract
Intestinal drug efflux mediated by P-glycoprotein and other ABC transporters is widely accepted as a reason for low or variable oral absorption. However, little is known about species and regional differences in P-glycoprotein so the functional and predictive relevance of observations made in cell models such as Caco-2 is uncertain. The aim of this study was to define the kinetics of drug efflux in rat and human intestinal tissues in vitro using the “reference” substrates digoxin and vinblastine. The expression and functional role of other ABC transporters in the transport of these compounds was also investigated. Saturable, verapamil-sensitive efflux of digoxin was observed in all intestinal regions. Apparent affinity of the efflux process varied within a relatively narrow range (50–92 μM), increasing in rat from small to large intestine. In contrast, maximal transporter activity varied over a 4- to 5-fold range with ileum > jejunum > colon. Similar regional differences in efflux were also observed with vinblastine. Maximal efflux levels were similar in Caco-2 and ileum for both substrates, suggesting that Caco-2 may quantitatively predict small intestinal drug efflux. Digoxin efflux kinetics was virtually identical in rat and human colon. Inhibitor studies showed that digoxin and vinblastine efflux in intestinal tissues was mediated by P-glycoprotein, although a minor component could be attributed to multidrug resistance-related protein (MRP)-like transporters in Caco-2. This study has analyzed the differential functional expression of drug efflux along the gastrointestinal tract. Such data will be critical in developing predictive models of P-glycoprotein-mediated efflux using information gathered from in vitro systems.
Footnotes
- Received July 26, 2000.
- Accepted October 27, 2000.
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Send reprint requests to: Dr. R. H. Stephens, Section of Gastroenterology, Clinical Division I, University of Manchester, Hope Hospital, Eccles Old Rd., Salford M6 8HD, UK. E-mail:rstephen{at}fs1.ho.man.ac.uk
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This work was supported by Pfizer Central Research, Sandwich, UK.
- The American Society for Pharmacology and Experimental Therapeutics
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