Doctoral Thesis
DOI
https://doi.org/10.11606/T.46.2022.tde-23052022-152413
Document
Author
Full name
Yunys Pérez Betancourt
E-mail
Institute/School/College
Knowledge Area
Date of Defense
Published
São Paulo, 2022
Supervisor
Committee
Carmona-Ribeiro, Ana Maria (President)
Rozenfeld, Julio Henrique Kravcuks
Petri, Denise Freitas Siqueira
Schenkman, Sergio
Rozenfeld, Julio Henrique Kravcuks
Petri, Denise Freitas Siqueira
Schenkman, Sergio
Title in English
Cationic and biocompatible polymeric nanoparticles: preparation, characterization, and immunoadjuvant activity
Keywords in English
Artigen carriers
Cationic lipids
Cationic polymers
Nanoparticles
Nanoparticles/protein
Polymer/protein interactions
Vaccine adjuvants
Vaccines
Cationic lipids
Cationic polymers
Nanoparticles
Nanoparticles/protein
Polymer/protein interactions
Vaccine adjuvants
Vaccines
Abstract in English
Adjuvants activate innate immunity by diverse mechanisms simulating the activity of danger signals present in entire pathogens but absent in purified antigens used in vaccines. Cationic nanoparticles (NPs) are promising adjuvants as they may show high colloidal stability, they adsorb oppositely charged antigens, and they increase antigens uptake by antigen-presenting cells (APC). The high toxicity displayed by isolated cationic lipids or polymers has hampered their use in vaccines. In this work, the toxicity of cationic materials is overcome by combining them with biocompatible polymers. Herein is described the preparation, characterization, toxicity, and immunoadjuvant activity of three cationic NPs, poly(diallyldimethylammchloride)/ovalbumin (PDDA/OVA), poly(methyl methacrylate)/dimethyldioctadecylammonium bromide/PDDA (PMMA/DODAB/PDDA), and PMMA/DODAB. NPs of PDDA/OVA were prepared by mixing PDDA and OVA; NPs of PMMA/DODAB/PDDA and PMMA/DODAB NPs were synthesized by emulsion polymerization of methyl methacrylate (MMA) in the presence of cationic components. Dispersion of NPs had their physical characteristics (mean hydrodynamic diameter (Dz), polydispersity (P), mean zeta-potential (ζ), and conductance (G)) determined by dynamic light scattering (DSL), turbidimetry, and scanning electron microscopy (SEM). The content ofPMMA, PDDA, and DODAB in NPs also was characterized. PDDA, OVA, PDDA/OVA, PMMA/DODAB/PDDA, PMMA/DODAB, DODAB large vesicles (DODAB-LV), and DODAB bilayer fragment (DODAB-BF) toxicity was evaluated measuring cell viability against fibroblast and macrophages. Immunoadjuvant activity was assessed by determining antibody production (IgG1, IgG2a), delayed-type hypersensitivity reaction (DTH), and cytokines profile. PDDA/OVA (0.01/0.1 mg/mL) NPs displayed Dz=170±4 nm, ζ =+30±2 mV, and P=0.11±0.01. Free PDDA exhibited dose-dependent toxicity exerted by disrupting fibroblast membranes. PDDA/OVA NPs elicited a T helper 2 (Th2) immune response represented by high IgG1 production and DTH similar to Al(OH)3/OVA. On the other hand, PMMA/DODAB/PDDA NPs exhibited Dz=217±1 nm, ζ=+73±1 mV, and P=0.12±0.01. After 24h incubation, PMMA/DODAB/PDDA NPs at 0.05 mg/mL (used in mice immunization) were no toxic against fibroblast or macrophages. PMMA/DODAB/PDDA NPs elicited a dual Th1/Th2 immune response, IgG1 titers were four times higher than the titers quantified using Al(OH)3 as the adjuvant. DTH for PMMA/DODAB/PDDA NPs was significantly higher than the those registered for OVA or Al(OH)3/OVA. Th1/Th2 dual response for PMMA/DODAB/PDDA was confirmed by cytokines profile showing higher production of IFN-γ, IL-4, IL-2, and IL-10 than controls. NPs of PMMA/DODAB displayed Dz=80±1 nm, ζ=+52±3 mV, and P=0.07±0.01. PMMA/DODAB NPs were less toxic than DODAB-BF and DODAB-LV, both against fibroblast and macrophages, at the concentration used for immunizations. The immune response generated by PMMA/DODAB NPs was dual Th1/Th2, IgG1 titers were comparable to those elicited by Al(OH)3, IgG2a titers, as well as DTH, were significantly higher than the ones produced by OVA or Al(OH)3/OVA. Th1/Th2 dual response confirmation was attained by determining cytokines production, PMMA/DODABNPs generated both Th1 (IL-2, IFN-γ) and Th2 (IL-4) cytokines. In conslusion, obtained NPs were biocompatible, nanosized, showed high ζ and narrow particle size distribution. Cationic materials immobilization decreases their toxicity in vitro. NPs enhanced the immune response as compared with OVA and Al(OH)3/OVA. Bearing-PDDA NPs had a bias toward a Th2 type response with high titers of IgG1, while PMMA/DODAB NPs exhibited a dual Th1/Th2 response.
Title in Portuguese
Nanopartículas poliméricas catiônicas e biocompatíveis: preparação, caracterização e atividade imunoadjuvante
Keywords in Portuguese
Adjuvantes para vacinas
Carreadores de antígenos
Interação nanopartícula/proteína
Lipídios catiônicos
Nanopartículas
Polímero/proteína
Polímeros catiônicos
Vacinas
Carreadores de antígenos
Interação nanopartícula/proteína
Lipídios catiônicos
Nanopartículas
Polímero/proteína
Polímeros catiônicos
Vacinas
Abstract in Portuguese
Os adjuvantes ativam a imunidade inata por diversos mecanismos que simulam a atividade dos sinais de perigo presentes em patógenos inteiros, mas ausentes em antígenos purificados. Nanopartículas (NPs) catiônicas são adjuvantes promissores, pois podem apresentar alta estabilidade coloidal, adsorver antígenos de carga oposta e aumentar a captação de antígenos pelas células apresentadoras de antígeno (APC). A alta toxicidade apresentada por lipídios ou polímeros catiônicos isolados tem dificultado seu uso em vacinas. Neste trabalho, a toxicidade de materiais catiônicos é superada combinando-os com polímeros biocompatíveis. É descrita a preparação, caracterização, toxicidade e atividade imunoadjuvante de três NPs catiônicas, cloreto de poli (dialildimetilamônio)/ovalbumina (PDDA/OVA), poli (metacrilato de metila)/brometo de dimetildioctadecilamônio/PDDA (PMMA/DODAB/PDMA) e PMMA/DODAB. NPs de PDDA/OVA foram preparadas misturando PDDA e OVA; NPs de PMMA/DODAB/PDDA e PMMA/DODAB foram sintetizados por polimerização em emulsão de metacrilato de metila (MMA) na presença dos componentes catiônicos. As dispersões de NPs tiveram suas características físicas (diâmetro hidrodinâmico médio (Dz), polidispersidade (P), potencial-zeta (ζ) e condutância (G)) determinadas por espalhamento de luz dinâmico (DSL), turbidimetria e microscopiaeletrônica de varredura (MEV). O conteúdo de PMMA, PDDA e DODAB em NPs também foi caracterizado. A toxicidade de PDDA, OVA, PDDA/OVA, PMMA/DODAB/PDDA, PMMA/DODAB, vesículas grandes de DODAB (DODAB-LV) e fragmento de bicamada de DODAB (DODAB-BF) foi avaliada medindo a viabilidade contra fibroblastos e macrófagos. A atividade imunoadjuvante foi avaliada pela determinação da produção de anticorpos (IgG1, IgG2a), reação de hipersensibilidade do tipo retardado (DTH) e perfil de citocinas. NPs de PDDA/OVA (0,01/0,1mg/mL) mostraram Dz=170±4nm, ζ=+30±2mV e P=0,11±0,01. PDDA livre exibiu toxicidade dependente da dose exercida pela ruptura das membranas dos fibroblastos. NPs de PDDA/OVA desencadearam uma resposta imune T helper-2 (Th2) representada por alta produção de IgG1 e DTH semelhante a Al(OH)3/OVA. NPs de PMMA/DODAB/PDDA exibiram Dz=217±1nm, ζ=+73±1mV e P=0,12±0,01. Após 24h de incubação, NPs de PMMA/DODAB/PDDA a 0,05mg/mL (usados na imunização) não foram tóxicas contra fibroblastos ou macrófagos. NPs de PMMA/DODAB/PDDA desencadearam uma resposta imune dual Th1/Th2, títulos de IgG1 foram quatro vezes maiores que os títulos quantificados usando Al(OH)3 como adjuvante. DTH para as NPs de PMMA/DODAB/PDDA foi significativamente maior que aqueles registrados para OVA ou Al(OH)3/OVA. A resposta dual Th1/Th2 para PMMA/DODAB/PDDA foi confirmada pelo perfil de citocinas mostrando maior produção de IFN-γ, IL-4, IL-2 e IL-10 que os controles. NPs de PMMA/DODAB exibiram Dz=80±1nm, ζ=+52±3mV e P=0,07±0,01 e foram menos tóxicas do que DODAB-BF e DODAB-LV, tanto contra fibroblastos quanto macrófagos. A resposta imune gerada por NPs de PMMA/DODAB foi dual Th1/Th2, títulos de IgG1 foram comparáveis aos eliciados por Al(OH)3, títulos de IgG2a, bem como DTH, foram significativamente maiores do que os produzidos por OVA ou Al(OH)3/OVA. A confirmação da resposta Th1/Th2 foi obtida através da determinação da produção de citocinas, NPs de PMMA/DODAB geraram citocinas Th1 (IL-2, IFN-γ) e Th2 (IL-4). Em conclusão, as NPs obtidas foram biocompatíveis, nanométricas, apresentaram ζ altos e distribuição de tamanho de partícula estreita. A imobilização de materiais catiônicos diminui sua toxicidade in vitro. NPs aumentaram a resposta imune comparado OVA e Al(OH) 3/OVA. NPs contendo PDDA induziram uma resposta Th2 com altos títulos de IgG1, enquanto NPs de PMMA/DODAB exibiram uma resposta dual Th1/Th2.
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Publishing Date
2022-05-24
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