Micellar inhibition effect of gangliosides on a degradation of drug was investigated, where ganglioside G(M1) (GM1), G(D1a) (GD1a) and G(T1b) (GTlb) whose sialic acid residue is one, two and three, respectively, were used. The base-catalyzed isomerization of prostaglandin A(2) (PGA(2)) to prostaglandin B(2) (PGB(2)) was chosen as a model experiment. The rate for the isomerization of PGA(2) was determined by measuring the concentration of PGA(2) (and PGB(2)) with a high-performance liquid chromatography. Gangliosides micelles inhibited the isomerization of PGA(2). The inhibition effect of GT1b micelles was larger than that of GD1a micelles. This result would be due to the larger absolute value of surface potential of GT1b micelles, which brings about a larger electrostatic repulsion between micellar surface and OH(-). The terminal sialic acid residue of ganglioside was effective to inhibit the isomerization of PGA(2). GM1 micelles without terminal sialic acid residue but with large aggregation number exhibited a superior steric shielding effect rather than an electrostatically repulsive effect. The inhibition effect of GM1 micelles was enhanced by the mixed micellization with the other ganglioside with a terminal sialic acid residue. GM1-GD1a or GM1-GT1b mixed micelles remarkably inhibited the isomerization of PGA(2). The physiological activity of PGs in the biological membranes containing gangliosides was also discussed.