B H Stewart1, F Y Chung, B Tait, C J Blankley, O H Chan, C John. 1. Pharmacokinetics/Dynamics & Metabolism Department, Parke-Davis Pharmaceutical Research Division, Warner-Lambert Company, Ann Arbor, Michigan 48105, USA. barbra.stewart@wl.com
Abstract
PURPOSE: The feasibility of using hydrophobicity measurements as screens for intracellular availability in T-cells or intestinal permeability in Caco-2 cells was examined. METHODS: T-cell experiments: Cells were counted, collected, then incubated with drug solution at 37 degrees C. At selected time intervals, uptake was quenched by transferring a sample into oil, followed by rinsing, lysis of cells, protein precipitation and analysis by HPLC. Caco-2 cell experiments: Cells were grown on plastic dishes for 7-10 d, then rinsed and incubated with drug solution at 37 degrees C. Uptake was quenched, cells were lysed, protein precipitated and drug was analyzed by HPLC. IAM chromatography: Stock solutions were injected onto an IAM column for HPLC. Mobile phase consisted of varying amounts of acetonitrile in buffer (pH 7.4). The capacity factor, k'IAM, was calculated using citric acid to measure the void volume and was obtained by extrapolation to pure buffer. RESULTS: Nine HIV protease inhibitors were studied for uptake by CEM T-cell suspensions or Caco-2 cell monolayers. Capacity factors (log) between IAM and C-18 columns were positively correlated for this series. Caco-2 uptake rates correlated well with T-cell uptake rates when normalized by protein mass. Single-variable regression using IAM or C-18 columns was acceptable for analysis of T-cell data. Correlation coefficients between T-cell uptake and log k'IAM or log k'C-18 were not improved with multivariable regression. Correlation between Caco-2 uptake and log k'IAM was enhanced when molecular weight and hydrogen-bonding potential were included in multivariable regression analysis (from r2 of 0.39 to 0.91). Correlations obtained using log k'IAM, log k'C-18 or log distribution coefficient (log D) were comparable when regressed against Caco-2 uptake using this approach. Calculated log partition coefficient (ClogP) provided the poorest correlation in the multivariable analysis (r2=0.57 for T-cell uptake and r2=0.71 for Caco-2 cell uptake). CONCLUSIONS: Uptake of HIV protease inhibitors by T-cell suspensions or Caco-2 cell monolayers was positively correlated. Uptake by T-cell suspensions was adequately described by hydrophobicity alone. Description of uptake by Caco-2 cell monolayers required multivariable regression analysis in which molecular weight and hydrogen bonding were included. Experimental measures of hydrophobicity (log k'IAM, log k'C-18 and log D) were superior to ClogP in the correlation analysis.
PURPOSE: The feasibility of using hydrophobicity measurements as screens for intracellular availability in T-cells or intestinal permeability in Caco-2 cells was examined. METHODS: T-cell experiments: Cells were counted, collected, then incubated with drug solution at 37 degrees C. At selected time intervals, uptake was quenched by transferring a sample into oil, followed by rinsing, lysis of cells, protein precipitation and analysis by HPLC. Caco-2 cell experiments: Cells were grown on plastic dishes for 7-10 d, then rinsed and incubated with drug solution at 37 degrees C. Uptake was quenched, cells were lysed, protein precipitated and drug was analyzed by HPLC. IAM chromatography: Stock solutions were injected onto an IAM column for HPLC. Mobile phase consisted of varying amounts of acetonitrile in buffer (pH 7.4). The capacity factor, k'IAM, was calculated using citric acid to measure the void volume and was obtained by extrapolation to pure buffer. RESULTS: Nine HIV protease inhibitors were studied for uptake by CEM T-cell suspensions or Caco-2 cell monolayers. Capacity factors (log) between IAM and C-18 columns were positively correlated for this series. Caco-2 uptake rates correlated well with T-cell uptake rates when normalized by protein mass. Single-variable regression using IAM or C-18 columns was acceptable for analysis of T-cell data. Correlation coefficients between T-cell uptake and log k'IAM or log k'C-18 were not improved with multivariable regression. Correlation between Caco-2 uptake and log k'IAM was enhanced when molecular weight and hydrogen-bonding potential were included in multivariable regression analysis (from r2 of 0.39 to 0.91). Correlations obtained using log k'IAM, log k'C-18 or log distribution coefficient (log D) were comparable when regressed against Caco-2 uptake using this approach. Calculated log partition coefficient (ClogP) provided the poorest correlation in the multivariable analysis (r2=0.57 for T-cell uptake and r2=0.71 for Caco-2 cell uptake). CONCLUSIONS: Uptake of HIV protease inhibitors by T-cell suspensions or Caco-2 cell monolayers was positively correlated. Uptake by T-cell suspensions was adequately described by hydrophobicity alone. Description of uptake by Caco-2 cell monolayers required multivariable regression analysis in which molecular weight and hydrogen bonding were included. Experimental measures of hydrophobicity (log k'IAM, log k'C-18 and log D) were superior to ClogP in the correlation analysis.
Authors: N A Roberts; J A Martin; D Kinchington; A V Broadhurst; J C Craig; I B Duncan; S A Galpin; B K Handa; J Kay; A Kröhn Journal: Science Date: 1990-04-20 Impact factor: 47.728