Abstract

Steroids are generally sparingly soluble in water. Thus, for in vitro studies of steroid metabolism or enzymology it is common practice to solubilize steroids by the addition of a small amount (2–10%, v/v) of an organic cosolvent. Methanol, ethanol, and 1,2-propanediol, singly or in combination, have been widely used (1). Effects of organic solvents on the kinetic parameters, K m and V max, of steroid-metabolizing enzymes with various substrates have been demonstrated (2,3), and the results are consistent with the conclusion that organic solvent influences on catalytic activity reflect, in part, effects on the aggregation state and solubility of steroid substrates. Light-scattering measurements have been applied extensively in studies of macromolecular structure (4) and micelle formation by a large variety of amphiphilic substances [reviewed in Ref. (5)]. Jones and Gordon (6) used a commercial instrument, designed specifically for light-scattering measurements, to characterize micelle formation in aqueous solutions by Δ5-3-ketosteroids containing various substituents at the 17β position. They showed that turbidity versus concentration plots were of the form seen in studies of micelle formation (5) and that steroids can exist in solution in monomeric or micellar forms, their aggregation state being a function of the polarity of the steroid solute and the composition of the solvent. To estimate solubility quantitatively 3H- or 14C-labeled steroids have been used in conjunction with centrifugation (3), dialysis (7), or filtration (8). These techniques allow for accurate estimates of solubility, but one may encounter problems due to nonspecific absorption on membranes or the unavailability of the labeled steroid of interest. We have observed that steroid aggregation and solubility can be estimated easily and with high sensitivity with a commercially available fluorometer. In this report the method is described and examples demonstrating the reproducibility and sensitivity of the technique are presented.

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