The Caco-2 cell monolayer model was used to classify 13 compounds as P-glycoprotein (Pgp) substrates or non-substrates. The apparent permeability coefficients (Papp) in the basal-to-apical direction (Papp(B-A)) and in the apical-to-basal direction (Papp(A-B)) were determined for each compound and a compound was designated as a Pgp substrate if Papp(B-A)/Papp(A-B), the permeability ratio, exceeded 2.0. The same compounds were chromatographed on open tubular glass columns containing membranes from cell lines that either expressed Pgp (Pgp+-OT column) or did not express Pgp (Pgp(-)-OT column). The differential retentions in min, Deltat values, of the compounds were determined using the following relationship Deltat=t((Pgp(+)-OT))-t((Pgp(-)-OT)). A statistically significant correlation was observed between the Deltat values and the permeability ratios, r2=0.7749 (p=0.0063), indicating that the differential chromatography approach could be used to quantitatively assess permeability ratios. The results also indicated that a Deltat value > or =0.5 min was a reliable measure of a permeability ratios >2 and could be used as a rapid qualitative determination of whether a test compound was a Pgp substrate. The chromatographic study took 1h to complete and a single pair of columns could be used to screen at least 150 compounds a week and 600 compounds during the 4-week lifetime of the columns.
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