Cationic PLGA Nanoparticle Formulations as Biocompatible Immunoadjuvant for Serum Production and Immune Response against IBothrops jararaca/I Venom

Snakebite envenoming represents a worldwide public health issue. Suitable technologies have been investigated for encapsulated recombinant or native proteins capable of inducing an effective and long-lasting adaptive immune response. Nanoparticles are colloidal dispersions that have been used as dru...

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Veröffentlicht in:	Toxins 2022-12, Vol.14 (12)
Hauptverfasser:	Santos-Silva, Emanuell dos, Torres-Rêgo, Manoela, Gláucia-Silva, Fiamma, Feitosa, Renata Carvalho, Lacerda, Ariane Ferreira, Rocha, Hugo Alexandre de Oliveira, Fernandes-Pedrosa, Matheus de Freitas, Silva-Júnior, Arnóbio Antônio da
Format:	Artikel
Sprache:	eng
Schlagworte:	Bites and stings Care and treatment Health aspects Immune response Immunological adjuvants Methods Nanoparticles Pharmacology, Experimental Serum Venom
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container_title	Toxins
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creator	Santos-Silva, Emanuell dos Torres-Rêgo, Manoela Gláucia-Silva, Fiamma Feitosa, Renata Carvalho Lacerda, Ariane Ferreira Rocha, Hugo Alexandre de Oliveira Fernandes-Pedrosa, Matheus de Freitas Silva-Júnior, Arnóbio Antônio da
description	Snakebite envenoming represents a worldwide public health issue. Suitable technologies have been investigated for encapsulated recombinant or native proteins capable of inducing an effective and long-lasting adaptive immune response. Nanoparticles are colloidal dispersions that have been used as drug delivery systems for bioactive biological compounds. Venom-loaded nanoparticles modulate the protein release and activate the immune response to produce specific antibodies. In this study, biocompatible cationic nanoparticles with Bothrops jararaca venom were prepared to be used as a novel immunoadjuvant that shows a similar or improved immune response in antibody production when compared to a conventional immunoadjuvant (aluminum hydroxide). We prepared stable, small-sized and spherical particles with high Bothrops jararaca venom protein association efficiency. The high protein loading efficiency, electrophoresis, and zeta potential results demonstrated that Bothrops jararaca venom is adsorbed on the particle surface, which remained as a stable colloidal dispersion over 6 weeks. The slow protein release occurred and followed parabolic diffusion release kinetics. The in vivo studies demonstrated that venom-loaded nanoparticles were able to produce an immune response similar to that of aluminum hydroxide. The cationic nanoparticles (CNp) as carriers of bioactive molecules, were successfully developed and demonstrated to be a promising immunoadjuvant.
doi_str_mv	10.3390/toxins14120888
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The high protein loading efficiency, electrophoresis, and zeta potential results demonstrated that Bothrops jararaca venom is adsorbed on the particle surface, which remained as a stable colloidal dispersion over 6 weeks. The slow protein release occurred and followed parabolic diffusion release kinetics. The in vivo studies demonstrated that venom-loaded nanoparticles were able to produce an immune response similar to that of aluminum hydroxide. 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Suitable technologies have been investigated for encapsulated recombinant or native proteins capable of inducing an effective and long-lasting adaptive immune response. Nanoparticles are colloidal dispersions that have been used as drug delivery systems for bioactive biological compounds. Venom-loaded nanoparticles modulate the protein release and activate the immune response to produce specific antibodies. In this study, biocompatible cationic nanoparticles with Bothrops jararaca venom were prepared to be used as a novel immunoadjuvant that shows a similar or improved immune response in antibody production when compared to a conventional immunoadjuvant (aluminum hydroxide). We prepared stable, small-sized and spherical particles with high Bothrops jararaca venom protein association efficiency. The high protein loading efficiency, electrophoresis, and zeta potential results demonstrated that Bothrops jararaca venom is adsorbed on the particle surface, which remained as a stable colloidal dispersion over 6 weeks. The slow protein release occurred and followed parabolic diffusion release kinetics. The in vivo studies demonstrated that venom-loaded nanoparticles were able to produce an immune response similar to that of aluminum hydroxide. The cationic nanoparticles (CNp) as carriers of bioactive molecules, were successfully developed and demonstrated to be a promising immunoadjuvant.</abstract><pub>MDPI AG</pub><doi>10.3390/toxins14120888</doi></addata></record>
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subjects	Bites and stings Care and treatment Health aspects Immune response Immunological adjuvants Methods Nanoparticles Pharmacology, Experimental Serum Venom
title	Cationic PLGA Nanoparticle Formulations as Biocompatible Immunoadjuvant for Serum Production and Immune Response against IBothrops jararaca/I Venom
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