Preparation and evaluation of chitosan nanoparticles containing Diphtheria toxoid as new carriers for nasal vaccine delivery in mice

The aim of me present work was to investigate rhe potential utility of nanoparticles made of chitosan (CS) and also CS chemically modified with polyethylene glycol (CS-PEG) as new vehicles for improving na^al vaccine delivery. For mis purpose, diphtheria toxoid (DT) was chosen as a model antigen. DT was entrapped within nanoparticles made of CS of different molecular weight, and also made of CS-PEG, by an ionic cross linking technique. DT-loaded nanoparticles were characterized for their size, surface charge, loading efficiency and in vitro release of antigenically active Toxoid. The nanoparticles were then a dmini stored intranasally to conscious mice in order to study their feasibility as vaccine carriers. The resulting nanoparticles had a size. which varied depending on the formulation conditions and on the PEG derivatization. between ۱۰۰ and ۵۰۰ nm. They exhibited a positive electrical charge (approx. +۴۰ mV) which was substantially reduced for the PEGgylated CS nanopal tides (approx. -۱۰ mV) and showed and excellent DT loading capacity (loading efficiency between ۵۰-۱۰۰% depending on the formulation). Tlie results of the in viti'o release studies displayed a biphasic release of antigenically active toxoid. the intensity of the first phase being less pronounced for CS-PEG nanoparticles than for CS nanoparticles. Following intranasal administration, DT-loaded nanoparticles elicited an increasing and enhanced humoral immunogenic response (IgG liters), as compared to the fluid vaccine. Similarly, the mucosal response (IgA levels) achieved at ۷۰ days post-administration was significantly higher for me DT-loaded CS nanoparticles than for the fluid vaccine. Interestingly, this response was not affected by The CS molecular weight but it was positively influenced by the PEGylation of CS. CS and CS-PEG nanoparticles are promising carriers for nasal immunization with DT.