PURPOSE: Antigenic proteins encapsulated in biodegradable polyester microspheres (MS) can slowly denature or aggregate, which results in decreased antigenicity. In this study, we have evaluated the ability of co-encapsulated additives to protect against the loss of tetanus toxoid (TT) antigenicity. METHODS: Antibody responses were analyzed after immunization of mice with TT microencapsulated in the presence of additives (TT-MS-additive). RESULTS: Immunization with TT-MS-additives gave rise to higher responses than those obtained in the absence of additive. BSA, trehalose. Gamma-hydroxypropylcyclodextrin and calcium salts preserved the immunogenicity of the incorporated antigen with the highest efficacy. Sustained responses were obtained with mixtures of fast and slowly releasing TT-MS containing BSA plus trehalose or calcium salts. CONCLUSIONS: The selected additives may stabilize the antigen in MS during storage and rehydration in body fluids. Regulated antigen release from MS-based vaccines permits a reduction of the antigen dose and optimization of single-dose vaccine formulations.
PURPOSE: Antigenic proteins encapsulated in biodegradable polyester microspheres (MS) can slowly denature or aggregate, which results in decreased antigenicity. In this study, we have evaluated the ability of co-encapsulated additives to protect against the loss of tetanus toxoid (TT) antigenicity. METHODS: Antibody responses were analyzed after immunization of mice with TT microencapsulated in the presence of additives (TT-MS-additive). RESULTS: Immunization with TT-MS-additives gave rise to higher responses than those obtained in the absence of additive. BSA, trehalose. Gamma-hydroxypropylcyclodextrin and calcium salts preserved the immunogenicity of the incorporated antigen with the highest efficacy. Sustained responses were obtained with mixtures of fast and slowly releasing TT-MS containing BSA plus trehalose or calcium salts. CONCLUSIONS: The selected additives may stabilize the antigen in MS during storage and rehydration in body fluids. Regulated antigen release from MS-based vaccines permits a reduction of the antigen dose and optimization of single-dose vaccine formulations.
Authors: Stacie J Fairley; Shree R Singh; Abebayehu N Yilma; Alain B Waffo; Praseetha Subbarayan; Saurabh Dixit; Murtada A Taha; Chino D Cambridge; Vida A Dennis Journal: Int J Nanomedicine Date: 2013-05-30