In Brazil, envenomation by snakes of the genus Bothrops is clinically relevant, particularly for the species Bothrops jararaca and B. erythromelas. The most effective treatment for envenomation by snakes is the administration of antivenoms associated with adjuvants. Novel adjuvants are required to reduce side effects and maximize the efficiency of conventional serum and vaccine formulations. The polymer chitosan has been shown to have immunoadjuvant properties, and it has been used as a platform for delivery systems. In this context, we evaluated the potential immunoadjuvant properties of chitosan nanoparticles (CNPs) loaded with B. jararaca and B. erythromelas venoms in the production of sera against these venoms. Stable CNPs were obtained by ionic gelation, and mice were immunized subcutaneously for 6 weeks with 100 µL of each snake venom at concentrations of 5.0 or 10.0% (w/w), encapsulated in CNPs or associated with aluminium hydroxide (AH). The evaluation of protein interactions with the CNPs revealed their ability to induce antibody levels equivalent to those of AH, even with smaller doses of antigen. In addition, the CNPs were less inflammatory due to their modified release of proteins. CNPs provide a promising approach for peptide/protein delivery from snake venom and will be useful for new vaccines.
Several species of scorpions are known to cause accidents which can lead to death, most of them belonging to the genus Tityus. Tityus serrulatus is considered the most dangerous scorpion in South America. In Brazil, T. serrulatus is responsible for serious accidents, including deaths, which occur mainly with children and elderly people. Anti-scorpion sera are routinely produced by various institutions, and suitable technologies have been investigated for encapsulation and release recombinant or native proteins capable of inducing antibody production. In this context, biocompatible and biodegradable polymers, such as chitosan, have been employed for this purpose. This study aimed to obtain a protein release system for the peptides or proteins from T. serrulatus, based on cross-linked chitosan nanoparticles (CN) in order to generate a new model of immunization in animals, and consequently a potentially novel polyclonal serum, namely an anti-T. serrulatus venom. CN were successfully obtained by ionic gelation using the polyanion tripolyphosphate (TPP), which demonstrated a suitable particle size of about 200 nm, with maximum encapsulation efficiency (100%) and enhanced antigen-specific antibody titers of 72%. The serum production data revealed that CN were equipotent to aluminum hydroxide, the traditional adjuvant for immunization. This study demonstrates that chitosan nanoparticles are a promising and safe system for peptide/protein delivery for T. serrulatus scorpion.
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