Title of article
Immunogenicity evaluation of rBoNT - E nanovaccine after mucosal administration
Author/Authors
Bagheripour, Mohamad Javad Biology Research Centre - Basic Science Faculty - Imam Hossein University - Tehran, Iran , Ebrahimi, Firouz Biology Research Centre - Basic Science Faculty - Imam Hossein University - Tehran, Iran , Hajizade, Abbas Biology Research Centre - Basic Science Faculty - Imam Hossein University - Tehran, Iran , Nazarian, Shahram Biology Research Centre - Basic Science Faculty - Imam Hossein University - Tehran, Iran
Pages
7
From page
353
To page
359
Abstract
The Botulism syndrome is caused by types A to G of botulinum neurotoxins. The binding
domains of these neurotoxins are immunogenic and considered as appropriate candidate vaccines.
Due to the low immunogenicity of recombinant vaccines, there have been many studies on the use of
biocompatible carriers such as chitosan nanoparticles for the delivery of these vaccines. The aim of
this study was evaluating the efficiency of chitosan nanoparticles as carriers for a candidate vaccine,
binding domain of BoNT/E, through oral and intranasal routes.
Materials and Methods: Chitosan nanoparticles containing rBoNT/E binding domain, were synthesized
via ionic gelation. After administration of the nanoparticles to mice through oral and intranasal routes,
antibody titers were assessed by ELISA and, finally, all groups were challenged by active botulinum
neurotoxin type E.
Results: The groups that received nanoparticles containing the antigen, through oral and intranasal
routes, and the group that received the bare antigen orally, were able to tolerate 5×102 folds of MLD.
The intranasally immunized mice by the bare antigen were able to tolerate 2×103 folds of the toxin’s
MLD.
Conclusion: It seems that the use of chitosan nanoparticles has no significant effect on the protective
immunization of the mice against botulinum BoNT/E in either route (P>0.05), even intranasal
administration of the bare antigen gives better mice immunization against the toxin.
Keywords
Botulinum toxin type E , Chitosan , Mucosal administration , Nanoparticles , Recombinant protein
Journal title
Astroparticle Physics
Serial Year
2019
Record number
2442584
Link To Document