L. Z. Benet, C. L. Cummins and C. Y. Wu Pages 393 - 398 ( 6 )
As discussed in earlier articles, predictions of in vivo drug-drug interactions from in vitro studies is a subject of high interest with obvious therapeutic as well as economic benefits. Up until now little attention has been given to the potential interplay between metabolic enzymes and transporters that could confound the in vivo-in vitro relationships. Drug efflux by intestinal Pglycoprotein (P-gp) is known to decrease the bioavailability of many CYP3A4 substrates. We have demonstrated that the interplay between P-gp and CYP3A4 at the apical intestinal membrane can increase the opportunity for drug metabolism by determining bidirectional extraction ratios across CYP3A4 transfected Caco-2 cells for two dual P-gp / CYP3A4 substrates, K77 (an experimental cysteine protease inhibitor) and sirolimus, as well as two negative control, CYP3A4 only substrates, midazolam and felodipine. Studies were carried out under control conditions, with a P-gp inhibitor (GG918) and with a dual inhibitor (cyclosporine). Measurement of intracellular concentration changes is an important component in calculating the extraction ratios. We hypothesize that the inverse orientation of P-gp and CYP3A4 in the liver will result in an opposite interactive effect in that organ. In vivo rat intestinal perfusion studies with K77 and rat liver perfusion studies with tacrolimus under control conditions and with inhibitors of CYP3A4 (troleandomycin), P-gp (GG918) and both CYP3A4 / P-gp (cyclosporine) lend support to our hypotheses. These results serve as a template for predicting enzymetransporter (both absorptive and efflux) interactions in the intestine and the liver.
drug-drug interactions,, transporters,
University of California, Department of Biopharmaceutical Sciences Box 0446, San Francisco, CA94143-0446, USA.