Effect of Dehydration and Rehydration of the pH-Sensitive Liposomes Containing Chimeric gag-V3 Virus Like Particle on Their Long-term Stability

One of the practical limitations with the use of liposomes for delivery of the pharmaceutical substances such antigens is that liposomes are relatively unstable in storage. In order to extend the stability of liposome in storage without affecting their functional activity, solution-type liposomes were dehydrated to form a structurally intact dry liposomes. Comparative immunological evaluation was carried out for both dry and solution-type liposomes containing gag-V3 chimera, consequently it was found that dry liposomes elicited both humoral and cellular response as efficiently as solution-type liposemes did against the same gag-V3 antigen. Especially, long-term stability of the liposomes was remarkably enhanced by the dehydration made to loposomes without a significant change in its ability to elicit immune response in vivo. These results indicate that dry pH-sensitive liposome may become an effective delivery and adjuvant system for general vaccine development.