Interaction among molecules in mixtures of ceramide/stearic acid, ceramide/cholesterol and ceramide/stearic acid/cholesterol.

To elucidate the interaction among the molecules which constitute intercellular lipids of stratum corneum, the phase diagrams in the binary mixtures of N-octadecanoyl-phytosphingosine (CER)/stearic acid (SA) and CER/cholesterol (CHOL) were studied by differential scanning calorimetry and by small- and wide-angle X-ray diffraction. These phase diagrams are mostly expressed by a eutectic type one. However, from their detailed analyses, it was revealed that in the phase diagram of CER/SA a new solid structure is formed just above the eutectic temperature. The lamellar spacing of the new structure is nearly equal to the length given by the sum of the two molecules of CER and/or SA, that is, in the lipid bilayer the hydrocarbon chains of CER and SA lie almost perpendicular to the lipid bilayer surface and the two kinds of molecules distribute homogeneously. On the other hand, in the binary mixture of CER/CHOL, CHOL molecules are apt to be isolated from the mixture. In a ternary mixture composed of equimolar lipids of CER, CHOL and SA, it was found that a pseudo-hexagonal structure takes place even in the solid state. This fact indicates that the three components are miscible and the hydrocarbon chains lie perpendicular to the lipid bilayer surface. We can draw the conclusion that the multi-component mixtures containing ceramide are apt to form the lamellar structure where even in the solid state the hydrocarbon chains lie perpendicular to the lipid bilayer surface and the components with hydrocarbon chains distribute homogeneously.