Chromatographic Hydrophobicity Index by Fast-Gradient RP-HPLC: A High-Throughput Alternative to log P/log D

Abstract

A new chromatographic hydrophobicity index (CHI) is described which can be used as part of a protocol for high-throughput (50−100 compounds/day) physicochemical property profiling for rational drug design. The index is derived from retention times (t_R) observed in a fast gradient reversed-phase HPLC method. The isocratic retention factors (log k‘) were measured for a series of 76 structurally unrelated compounds by using various concentrations of acetonitrile in the mobile phase. By plotting the log k‘ as a function of the acetonitrile concentration, the slope (S) and the intercept (log k‘_w) values were calculated. The previously validated index of hydrophobicity φ₀ was calculated as −log k‘_w/S. A good linear correlation was obtained between the gradient retention time values, t_R and the isocratically determined φ₀ values for the 76 compounds. The constants of this linear correlation can be used to calculate CHI. For most compounds, CHI is between 0 and 100 and in this range it approximates to the percentage (by volume) of acetonitrile required to achieve an equal distribution of compound between the mobile and the stationary phases. CHI values can be measured using acidic, neutral, or slightly basic eluents. Values corresponding to the neutral form of molecules could be measured for 52 of the compounds and showed good correlation (r = 0.851) to the calculated octanol/water partition coefficient (c log P) values.