Effect of cholesterol on miscibility and phase behavior in binary mixtures with synthetic ceramide 2 and octadecanoic acid. Infrared studies

The three main lipid components of the stratum corneum, namely ceramides, free fatty acids and cholesterol, play a fundamental role in the maintenance of the skin barrier. The current investigation is aimed toward understanding the miscibility and intermolecular interactions of these lipids. Toward this end, Fourier transform infrared spectroscopic studies of the three possible equimolar binary mixtures of cholesterol, a synthetic non-hydroxylated fatty acid N-acyl sphingosine with a C18 chain length (N-stearoylsphingosine, approximating human ceramide 2), and stearic acid were undertaken. The thermotropic responses of the methylene stretching and scissoring vibrations were used to evaluate chain conformation and packing respectively. Selective perdeuteration, of either the stearic acid or the ceramide acid chains, permitted separate and simultaneous evaluation of the conformational order and packing properties of the sphingosine chain, the amide linked fatty acid chains and/or the stearic acid chain. Whereas cholesterol mixed well with ceramide at physiological temperatures, the stearic acid was miscible with the cholesterol only at relatively high temperatures where the fatty acid is disordered. A complex interaction between stearic acid and ceramide was detected. A separate fatty acid-rich phase persisted until at least 50 degreesC, whereas at higher temperatures the components appear to be quite miscible. However, a preferential association of the fatty acid with the ceramide base chain is indicated. None of the binary systems studied exhibit miscibility and interactions resembling those in the ternary mixtures of these substances, which is widely used to model stratum corneum. The role of cholesterol in controlling the miscibility characteristics in the ternary system is evident. (C) 2001 Elsevier Science B.V. All rights reserved.