Abstract
We have reported that the P-gp substrate digoxin required basolateral and apical uptake transport in excess of that allowed by digoxin passive permeability (as measured in the presence of GF120918) to achieve the observed efflux kinetics across MDCK-MDR1-NKI (The Netherlands Cancer Institute) confluent cell monolayers. That is, GF120918 inhibitable uptake transport was kinetically required. Therefore, IC50 measurements using digoxin as a probe substrate in this cell line could be due to inhibition of P-gp, of digoxin uptake transport, or both. This kinetic analysis is now extended to include three additional cell lines: MDCK-MDR1-NIH (National Institute of Health), Caco-2 and CPT-B2 (Caco-2 cells with BCRP knockdown). These cells similarly exhibit GF120918 inhibitable uptake transport of digoxin. We demonstrate that inhibition of digoxin transport across these cell lines by GF120918, cyclosporine, ketoconazole and verapamil is greater than can be explained by inhibition of P-gp alone. We examined three hypotheses for this non-P-gp inhibition. The inhibitors can: (1) bind to a basolateral digoxin uptake transporter, thereby inhibiting digoxin's cellular uptake; (2) partition into the basolateral membrane and directly reduce membrane permeability; (3) aggregate with digoxin in the donor chamber, thereby reducing the free concentration of digoxin, with concomitant reduction in digoxin uptake. Data and simulations show that hypothesis 1 was found to be uniformly acceptable. Hypothesis 2 was found to be uniformly unlikely. Hypothesis 3 was unlikely for GF120918 and cyclosporine, but further studies are needed to completely adjudicate whether hetero-dimerization contributes to the non-P-gp inhibition for ketoconazole and verapamil. We also find that P-gp substrates with relatively low passive permeability such as digoxin, loperamide and vinblastine kinetically require basolateral uptake transport over that allowed by +GF120918 passive permeability, while highly permeable P-gp substrates such as amprenavir, quinidine, ketoconazole and verapamil do not, regardless of whether they actually use the basolateral transporter.
Highlights
It is well established that transporters play an important role in absorption, distribution, metabolism and elimination of drugs
We have found that a kinetic need for a basolateral uptake transporter can only be observed using low concentrations of drugs with passive permeability values below about 320 nm/s, e.g. digoxin, loperamide and vinblastine
The concentration-time profile for the donor and receiver chambers in both the basolateral to apical and apical to basolateral transport direction for each P-gp substrate was fitted to the mass action model using the recently published improved fitting algorithm optimized for simultaneous fitting of all substrate concentrations [13]
Summary
It is well established that transporters play an important role in absorption, distribution, metabolism and elimination of drugs. Inhibition of drug transporters can affect drug safety and efficacy. The International Transporter Consortium published a white paper reviewing the clinically important drug transporters and summarizing which in vitro methods are suitable for assessing drugdrug interaction (DDI) risks [1]. The risk for a DDI resulting from P-gp inhibition is assessed by determining the in vitro inhibitor concentration required to reduce probe-substrate transport by 50%, i.e. the IC50 [2][3][4][5]. Digoxin is typically used in in vitro inhibition studies as a clinically relevant P-gp probe substrate since it has a narrow therapeutic window and digoxin clinical drug-drug interactions have been ascribed to P-gp inhibition. Inhibition of digoxin transport is often determined using confluent polarized cell lines expressing high levels of P-gp such as Caco-2 [2][6][7][8], MDCK-MDR1-NKI (from the Netherlands Cancer Institute) [9], MDCK-MDR1-NIH (from NIH) [10] and LLC-PK1 (from the Netherlands Cancer Institute) [11]
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