Abstract
Immunization of mice with liposomes consisting of dipalmitoylphosphatidylcholine, cholesterol, lipid A, and glycosphingolipids (GSLs) can efficiently induce the production of antibodies that recognize specific GSLs. Here, we analyzed the effect of GSL species on the particle sizes of GSL-containing liposomes. We prepared liposomes containing Gb4Cer/globoside, GM3, and several artificial GSLs, and analyzed their particle sizes in phosphate-buffered saline by dynamic light scattering. The particle sizes of liposomes were significantly altered by the addition of GSLs, and they formed 65- to 1737-nm particle sizes depending on their constituent GSL species. We compared the sizes of each GSL-containing liposome with the IgM- or IgG-inducing activity of these liposomes in mice, and found a positive correlation between increasing liposome size and IgG-inducing activity. We also determined the nucleotide sequences of the heavy and light chain variable regions of anti-Gb4Cer IgM and IgG3 obtained from the Gb4Cer-containing liposome-immunized mice, and found that they were composed of different gene segments. This result indicates that the GSL-containing liposomes induce the production of IgG3 through an immune pathway different from that of IgM, rather than efficiently inducing class switching.
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