Unraveling the host innate immune response to a respiratory model of Brucella abortus

Surendran, Naveen

06 July 2010

Brucella are Gram-negative intracellular bacteria that cause abortion and infertility in livestock and chronic disease in humans. The Centers for Disease Control and Prevention (CDC) categorizes them as class B pathogens due to their zoonotic potential. Currently, there are no efficacious Brucella vaccines for humans available. Very few studies have focused on identifying protective vaccines against respiratory exposure. Protection by B. abortus rough vaccine strains RB51 and RB51SOD is through strong CD4⁺ Th₁ and CD8⁺ Tc₁ adaptive immunity. However, limited information is available on how they stimulate innate immunity. This knowledge is critical for improving these vaccines for their potential use in humans. Dendritic cells (DCs) play a crucial role bridging innate and adaptive immunity. Therefore, enhancing the ability of rough vaccine strains to induce DC maturation and function could be critical for upregulating protective T-cell responses. Herein, we demonstrated that live vaccine strain RB51 induced significantly better (p≤0.05) DC maturation and function in vitro and upon intranasal inoculation in vivo compared to strain RB51SOD or strain 2308. Due to safety concerns of live vaccines, irradiated and heat killed vaccines were also tested; only live strain RB51 infected DCs induced significant (p≤0.05) DC function based on TNF-α and IL-12 secretion. DC activation occurs through Toll-like receptors (TLRs) 2, 4 and 9. Our study reported that strain RB51 induced significant (p≤0.05) DC activation compared to strain 2308, which was not dependent on a specific TLR. However, strain RB51 induced TNF – α production was TLR2 and TLR9 dependent and IL-12 production was TLR2 and TLR4 dependent. TLR4 KO mice had significantly (p≤0.05) higher number of strain RB51 colonies present at day 14 post infection. By unraveling the innate immune responses to Brucella, the ultimate goal of these studies is to develop a protective vaccine for animals and people against respiratory challenge. As such, we tested several vaccination strategies. Despite enhanced DC activation and function achieved by vaccine strains, they failed to protect mice against intranasal challenge with strain 2308. Future experiments will address host-pathogen interaction at the lung microenvironment and elucidate immune mechanisms that will enhance protection against aerosol exposure. / Ph. D.

intranasal vaccination

toll like receptors

Brucella abortus

innate immunity

vaccine strains RB51 and RB51SOD

dendritic cells

The ability of TLR agonists to upregulate Brucella abortus strain RB51 mediated protection in a murine respiratory model

Walker, Michelle Kay

23 January 2014

Brucella abortus is amongst the top 5 zoonotic diseases worldwide. The overall goal of this research is to generate a safe and effective vaccine for humans. Brucella abortus strain RB51, approved for use in cattle, provides protection by initiating a strong T-helper 1 (Th1) type response is a candidate vaccine. Based on a model for aerosol exposure mice were vaccinated intranasally (IN) with strain RB51 and challenged IN with B. abortus strain 2308, strain RB51 did not protect. Protection against Brucella is mediated through TLRs 2, 4 and 9. The addition of TLR 2 or TLR 4 and a trend with TLR9 agonists with intranasal RB51 vaccination significantly increased bacterial clearance in the lung after strain 2308 challenge. Therefore, we hypothesized that combining TLR agonists 2, 4, and 9 with strain RB51 IN would upregulate protection and clearance in the lung against strain 2308 challenge (IN), by upregulating the DC1 and CD4 Th1 and CD8 immune response. This study showed that protection is not upregulated by combining all TLR agonists. Overall the addition of TLR 2 and 4 vs. TLR 2, 4 and 9 agonists affects the immune response and impacts the level of clearance. Our data support the development of a DC1 Th1 CD8 response, based on serology, and both DC and T-cell activation and function by the group which received the TLR 2 and 4 agonists and to a lesser degree the group receiving TLR 2, 4, and 9 agonists. Additional studies are warranted to further define the differential mechanisms and endpoints of protection. / Master of Science

Brucella abortus

innate immunity

dendritic cells

vaccine strains RB51

toll-like receptors

intranasal vaccination

Porinas e suas ações imunomoduladoras dependentes de TLR2 / Porins and their immunomodulatory effects triggered by TLR2

Nascimento, Laura de Oliveira

20 December 2011

Os micro-organismos podem infectar seu hospedeiro por diferentes vias, sendo a principal o trato respiratório. O reconhecimento pela mucosa dessas vias pode desencadear inibição da proliferação e bloqueio da entrada microbiana, assim como estimular resposta direcionada a memória imunológica para prevenir posteriores infecções. Alguns micro-organismo, como as bactérias Neisseria meningitidis e Neisseria lactamica, são capazes de modular a resposta imune de mucosa diretamente, ou por meio das células epiteliais respiratórias. Este trabalho propôs, então, a avaliação das porinas B provenientes destas bactérias como moduladoras da produção de IL-8 nas linhagens BEAS-2B e Detroit 562. Também foi avaliada a dependência deste estímulo ao receptor TLR2. Ambas as porinas se ligaram a TLR2 e por este receptor estimularam a produção de IL-8. O perfil de produção foi dependente da expressão de TLR2 pelas células. A porina lactâmica induziu menos IL-8 por regular negativamente a expressão de TLR2, mas sua afinidade pelo receptor se mostrou maior que a da porina meningocócica. As porinas são então moduladoras das células de mucosa, fato que somado a atividade adjuvante destas proteínas por via parenteral estimulou a avaliação destas como adjuvantes de mucosa. O modelo escolhido para a avaliação foi o de inoculação intranasal de camundongos, utilizando como antígeno o lipopolissacarídio pouco imunogênico de Franciscella tularensis atenuada (Ft-LPS). A análise foi baseada no título de anticorpos IgG e IgM séricos. A porina meningocócica se mostrou a mais imunogênica, mas por ser originária de patógeno acarreta maior risco biológico em sua produção. Para viabilizar a porina meningocócica como adjuvante, a mesma foi substituída por porina homóloga produzida de modo recombinante em Escherichia coli não patogênica. A porina recombinante foi avaliada pelo mesmo sistema in vivo e comparada a adjuvantes experimentais de ação conhecida (rCTB, QS-21 e ODN 1826). A porina apresentou o melhor desempenho entre todos os adjuvantes, principalmente dois meses após o fim do esquema vacinal. O mesmo adjuvante foi adicionado ao vírus da raiva para caracterizar a amplitude de antígenos para sua aplicação e o efeito biológico dos anticorpos induzidos. Os resultados obtidos por via intranasal com antígeno da raiva confirmaram a propriedade de adjuvante de mucosa da porina recombinante, aumentando os títulos de IgG séricos. O ensaio biológico dos anticorpos por RFFIT comprovaram a funcionalidade dos anticorpos gerados, neutralizando a infectividade viral em células BHK-21. O uso da porina por via subcutânea não aumentou o nível de anticorpos neutralizantes, mas aumentou o de IgG. Não foi detectada imunidade celular específica de linfócitos do baço ao vírus da raiva nos parâmetros avaliados, independente da adição de adjuvantes. Em resumo, as porinas foram caracterizadas como relevantes na imunomodulação de células da mucosa respiratória por infecção meningocócica. A modulação também foi relevante para o aumento de resposta humoral frente a diferentes antígenos, por diferentes vias de administração, o que demonstra a eficiência e versatilidade da porina recombinante como adjuvante imunológico. / Microorganisms can invade the host through many routes, specially the respiratory tract. The respiratory mucosa is responsible for recognition, inhibition, proliferation and entry blockade of microorganisms, besides incitation of immunological memory to prevent further infections. Some microorganisms, such as Neisseria meningitidis and Neisseria lactamica, can modulate the mucosa immune response directly or through stimulation of respiratory epithelial cells. The present work proposed the evaluation of porin B proteins, derived from these microorganisms, as modulators of IL-8 production on respiratory epithelial cell strains BEAS-2B and Detroit 562. TLR2 receptor dependency for the modulation was also evaluated. Both porins bounded to TLR2 and through this receptor were able to stimulate IL-8 production, whereas this profile was correlated with TLR2 expression. Lactamica porin (Nlac PorB) induced less IL-8 and TLR2 expression, also for a shorter period of time. The effect caused by Nlac PorB was attributed to TLR2 down regulated expression, since its binding affinity to the receptor is greater than meningococcal porin (Nmen PorB). Porins were therefore able to immune modulate mucosal cells, fact that allied with their parenteral adjuvant activity incited evaluation of porins as potential mucosal adjuvants. The model chosen for the evaluation was intranasal immunization of mice, using as the antigen a low immunogenic lipopolysaccharide extracted from attenuated Franciscella tularensis (Ft-LPS). The evaluation was based on IgG and IgM serum titers. After the immunization scheme, Nmen PorB induced higher IgG and IgM titers than Nlac PorB. Although Nmen PorB was more efficient, it comes from a pathogen. To overcome the risk of its production, it was replaced by recombinant porin (rPorB) produced by Escherichia coli. rPorB was evaluated by the same model and compared with well known experimental adjuvants (rCTB, QS-21 e ODN 1826). rPoB had the highest IgM and IgG titers among all adjuvants tested, specially two months after vaccination. The same adjuvant was also combined with a viral antigen to characterize its application wideness and biological function of incited antibodies. Results obtained with rabies antigen by intranasal route confirmed the mucosal adjuvant properties of rPorB, increasing IgG titers induced by the antigen. These antibodies were also capable of virus neutralization, as demonstrated in RFFIT assays. rPoB didn´t raise neutralizing antibody titers by subcutaneous route, but increased IgG titers. Cellular immunity was undetectable in spleen lymphocytes with the screening method used, regardless of adjuvant addition. In conclusion, porins were characterized as revelant for immunomodulation of the respiratory mucosal cells, caused by infection with meningococcus. The immunomodulation was also revelant for increase of humoral reponse to different antigens and by different routes, pointing out recombinant porin B as an efficient and versatile immunological adjuvant.

Adjuvant

Adjuvante

IL-8

IL-8

Intranasal vaccination

Porin

Porina

Rabies virus

TLR2

TLR2

Vacinação intranasal

Vírus da raiva

Porinas e suas ações imunomoduladoras dependentes de TLR2 / Porins and their immunomodulatory effects triggered by TLR2

Laura de Oliveira Nascimento

20 December 2011

Os micro-organismos podem infectar seu hospedeiro por diferentes vias, sendo a principal o trato respiratório. O reconhecimento pela mucosa dessas vias pode desencadear inibição da proliferação e bloqueio da entrada microbiana, assim como estimular resposta direcionada a memória imunológica para prevenir posteriores infecções. Alguns micro-organismo, como as bactérias Neisseria meningitidis e Neisseria lactamica, são capazes de modular a resposta imune de mucosa diretamente, ou por meio das células epiteliais respiratórias. Este trabalho propôs, então, a avaliação das porinas B provenientes destas bactérias como moduladoras da produção de IL-8 nas linhagens BEAS-2B e Detroit 562. Também foi avaliada a dependência deste estímulo ao receptor TLR2. Ambas as porinas se ligaram a TLR2 e por este receptor estimularam a produção de IL-8. O perfil de produção foi dependente da expressão de TLR2 pelas células. A porina lactâmica induziu menos IL-8 por regular negativamente a expressão de TLR2, mas sua afinidade pelo receptor se mostrou maior que a da porina meningocócica. As porinas são então moduladoras das células de mucosa, fato que somado a atividade adjuvante destas proteínas por via parenteral estimulou a avaliação destas como adjuvantes de mucosa. O modelo escolhido para a avaliação foi o de inoculação intranasal de camundongos, utilizando como antígeno o lipopolissacarídio pouco imunogênico de Franciscella tularensis atenuada (Ft-LPS). A análise foi baseada no título de anticorpos IgG e IgM séricos. A porina meningocócica se mostrou a mais imunogênica, mas por ser originária de patógeno acarreta maior risco biológico em sua produção. Para viabilizar a porina meningocócica como adjuvante, a mesma foi substituída por porina homóloga produzida de modo recombinante em Escherichia coli não patogênica. A porina recombinante foi avaliada pelo mesmo sistema in vivo e comparada a adjuvantes experimentais de ação conhecida (rCTB, QS-21 e ODN 1826). A porina apresentou o melhor desempenho entre todos os adjuvantes, principalmente dois meses após o fim do esquema vacinal. O mesmo adjuvante foi adicionado ao vírus da raiva para caracterizar a amplitude de antígenos para sua aplicação e o efeito biológico dos anticorpos induzidos. Os resultados obtidos por via intranasal com antígeno da raiva confirmaram a propriedade de adjuvante de mucosa da porina recombinante, aumentando os títulos de IgG séricos. O ensaio biológico dos anticorpos por RFFIT comprovaram a funcionalidade dos anticorpos gerados, neutralizando a infectividade viral em células BHK-21. O uso da porina por via subcutânea não aumentou o nível de anticorpos neutralizantes, mas aumentou o de IgG. Não foi detectada imunidade celular específica de linfócitos do baço ao vírus da raiva nos parâmetros avaliados, independente da adição de adjuvantes. Em resumo, as porinas foram caracterizadas como relevantes na imunomodulação de células da mucosa respiratória por infecção meningocócica. A modulação também foi relevante para o aumento de resposta humoral frente a diferentes antígenos, por diferentes vias de administração, o que demonstra a eficiência e versatilidade da porina recombinante como adjuvante imunológico. / Microorganisms can invade the host through many routes, specially the respiratory tract. The respiratory mucosa is responsible for recognition, inhibition, proliferation and entry blockade of microorganisms, besides incitation of immunological memory to prevent further infections. Some microorganisms, such as Neisseria meningitidis and Neisseria lactamica, can modulate the mucosa immune response directly or through stimulation of respiratory epithelial cells. The present work proposed the evaluation of porin B proteins, derived from these microorganisms, as modulators of IL-8 production on respiratory epithelial cell strains BEAS-2B and Detroit 562. TLR2 receptor dependency for the modulation was also evaluated. Both porins bounded to TLR2 and through this receptor were able to stimulate IL-8 production, whereas this profile was correlated with TLR2 expression. Lactamica porin (Nlac PorB) induced less IL-8 and TLR2 expression, also for a shorter period of time. The effect caused by Nlac PorB was attributed to TLR2 down regulated expression, since its binding affinity to the receptor is greater than meningococcal porin (Nmen PorB). Porins were therefore able to immune modulate mucosal cells, fact that allied with their parenteral adjuvant activity incited evaluation of porins as potential mucosal adjuvants. The model chosen for the evaluation was intranasal immunization of mice, using as the antigen a low immunogenic lipopolysaccharide extracted from attenuated Franciscella tularensis (Ft-LPS). The evaluation was based on IgG and IgM serum titers. After the immunization scheme, Nmen PorB induced higher IgG and IgM titers than Nlac PorB. Although Nmen PorB was more efficient, it comes from a pathogen. To overcome the risk of its production, it was replaced by recombinant porin (rPorB) produced by Escherichia coli. rPorB was evaluated by the same model and compared with well known experimental adjuvants (rCTB, QS-21 e ODN 1826). rPoB had the highest IgM and IgG titers among all adjuvants tested, specially two months after vaccination. The same adjuvant was also combined with a viral antigen to characterize its application wideness and biological function of incited antibodies. Results obtained with rabies antigen by intranasal route confirmed the mucosal adjuvant properties of rPorB, increasing IgG titers induced by the antigen. These antibodies were also capable of virus neutralization, as demonstrated in RFFIT assays. rPoB didn´t raise neutralizing antibody titers by subcutaneous route, but increased IgG titers. Cellular immunity was undetectable in spleen lymphocytes with the screening method used, regardless of adjuvant addition. In conclusion, porins were characterized as revelant for immunomodulation of the respiratory mucosal cells, caused by infection with meningococcus. The immunomodulation was also revelant for increase of humoral reponse to different antigens and by different routes, pointing out recombinant porin B as an efficient and versatile immunological adjuvant.

Adjuvante

IL-8

Porina

TLR2

Vacinação intranasal

Vírus da raiva

Adjuvant

IL-8

Intranasal vaccination

Porin

Rabies virus

TLR2

Development and Evaluation of Nanoparticle-based Intranasal Inactivated Influenza Virus Vaccine Candidates in Pigs

Dhakal, Santosh

21 December 2018

No description available.

Immunology

Microbiology

Nanotechnology

Veterinary Services

Virology