Papel das células B-1 na infecção por Leishmania (L.) amazonensis. / Role of B-1 cells in the infection by Leishmania (L.) amazonensis

Ferreira, Natália Soares

20 April 2016

Parasitos do gênero Leishmania causam um espectro de doenças chamadas de leishmaniose. Para compreender de melhor forma a imunobiologia da Leishmania, o estudo de outras células envolvidas no processo de infecção do parasito se torna importante. As células B-1 são encontradas principalmente nas cavidades peritoneal e pleural, tendo como característica a capacidade de se diferenciar em células fagocíticas. Este trabalho teve como objetivo avaliar o papel das células B-1 na infecção por L. (L.) amazonensis. Os resultados mostraram que, assim como os macrófagos, os B-1CDPs são infectados pelo mecanismo de fagocitose e permitem a multiplicação da Leishmania no seu interior. Além disso, os vacúolos parasitóforos formados nos B-1CDPs apresentaram ser maiores do que dos macrófagos. Portanto, os dados com B1CDPs sugerem que estas células podem possuir um papel relevante na infecção por L. (L.) amazonensis, podendo ser considerados células hospedeiras importantes durante a infecção devido à incapacidade de responder de maneira eficaz para a eliminação dos parasitos. / The genus Leishmania parasites cause a spectrum of diseases called leishmaniasis. To better understand the immunobiology of Leishmania, the study of other cells involved in parasite infection process becomes important. The B-1 cells are found predominantly in the peritoneal and pleural cavities, whose feature consist on an ability to differentiate into phagocytic cells. This study aimed to evaluate the role of B-1 cells in the infection by L. (L.) amazonensis. The results showed that, like macrophages, B-1CDPs are infected by a mechanism of phagocytosis and allow the multiplication of Leishmania within. Furthermore, the parasitophorous vacuoles in the B-1CDPs showed to be larger than those formed in the macrophages. Therefore, B1CDPs can have an important role in infection by L. (L.) amazonensis and can be considered important host cells during infection due to inability to respond effectively to the elimination of parasites.

L. (L.) amazonensis

L. (L.) amazonensis

B-1 cells

Células B-1

Macrófagos

Macrophages

Parasitophorous vacuole

Vacúolo parasitóforo

Estudo da interação de linfócitos B-1 com antígenos de Paracoccidioides brasilienses / Study of the interaction of B-1 lymphocytes with antigens of Paracoccidioides brasiliensis

Noal, Vanessa Rosa

04 December 2009

Diversos dados na literatura têm demonstrado a participação de linfócitos B-1 em diferentes fenômenos imunológicos, tanto na resposta imune inata quanto na resposta imune adaptativa. Para melhor entendermos a ativação da resposta imune eficaz contra fungos patogênicos, pesquisamos a interação entre os linfócitos B-1 e o Paracoccidioides brasiliensis (P. brasiliensis), uma vez que este expressa moléculas antigênicas que podem ser reconhecidas pelo sistema imune. Utilizamos preparação antigênica do P. brasiliensis obtida de sua superfície leveduriforme denominada de CFA (antígeno livre da parede do fungo) e células leveduriforme do fungo. Observou-se que a maioria das células do sobrenadante da cultura celular de 4 dias de células totais aderentes peritoneais eram constituídos por linfócitos B-1; estas células expressam altos níveis de MHC-II (100%) e CD80 (90%). Contudo, não houve expressão significativa da molécula co-estimuladora CD86. Pela análise fenotípica, os linfócitos B-1 podem atuar como células apresentadoras de antígeno pois expressam CD80, CD86 e MHC-II; então realizamos o ensaio de proliferação celular utilizando linfócitos B-1 como células apresentadoras de antígenos e observamos proliferação celular de linfócitos TCD4+ significativa. Em relação às citocinas, analisamos a secreção de IL-10 e TNF-α do sobrenadante da cultura de linfócitos B-1 sem nenhum estímulo e observamos que estas células secretam tanto IL-10 quanto TNF-α; após estímulo de CFA, os valores aumentam significantemente. Analisamos a expressão de TLR-2, TLR-4, MyD88 e IL-10, por RT-PCR, dos linfócitos B-1 na presença de CFA. Encontramos expressão de TLR-2, MyD88 e IL-10 nas células com e sem estímulo. Analisamos a migração dos linfócitos B-1 da cavidade peritoneal de camundongos BALB/c após estímulo intraperitoneal (ip) com leveduras de PB. Decorridas 5 horas, foi observada grande diminuição dos linfócitos B-1 na cavidade peritoneal, que permanecia por 24 horas e 7 dias pós-infecção. Para melhor compreendermos a migração dos linfócitos B-1, foram utilizados camundongos CBA/N Xid (desprovidos de linfócitos B-1), cujo o peritônio foi reconstituído com linfócitos B-1, sendo infectados ip com leveduras de P brasiliensis. Os resultados demonstram que, após a infecção, os linfócitos B-1 migram da cavidade peritoneal para o baço. Também, observou-se aumento no número de células T com fenótipo de célula regulatória (CD4+CD25+Foxp3+). Nossos resultados sugerem que a elevada produção de IL-10 por células B-1, mediada provavelmente pela ligação de TLR-2, juntamente com a capacidade dos linfócitos B-1 em ativar linfócitos T, com a capacidade de migrar do peritônio para o baço e ativar células T regulatórias, poderia favorecer a sobrevivência do fungo no hospedeiro. / Innumerous data published in the literature have shown the involvement of B-1 cells in different immunological phenomena, both in the innate immnune response and the adaptive immune response. To better understand the activation of effective immune response against pathogenic fungi, we researched the interaction between B-1 cells and Paracoccidioides brasiliensis (P. brasiliensis), since it expresses that antigenic molecules can be recognized by the immune system. We used antigenic preparation of P. brasiliensis obtained from the surface of yeast called CFA (cell free antigen) and yeast cells of the fungus. It was observed that most cells in the cell culture supernatant 4 days of total adherent peritoneal cells consisted of B-1 cells, these cells express high levels of MHC-II (100%) and CD80 (90%). However, no significant expression of co-stimulatory molecule CD86 was observed. After phenotypic analysis, the B-1 cells can act as anyigen-presenting cells because they express C80, CD86 and MHC-II, then realized proliferation assay using B-1 cells as antigen presenting cells inducing was performed, and our results showed the significant proliferation of CD4 T cells. Regarding cytokines, we analyzed the IL-10 secretion and TNF-α in culture supernatant of B-1 cells without stimulation and found that these cells secrete both IL-10 and TNF-α, after stimulation of CFA. We analyzed the expression of TLR-2, TLR-4, MyD88 and IL-10 by RT-PCR, of the B-1 cells in the presence of CFA. We found expression of TLR-2, MyD88 and IL-10 cells with and without stimulus. We analyzed the migration of peritoneal B-1 cells after intraperitoneal (ip) infection with yeast from P. brasiliensis. After 5 hours, high decrease of B-1 cells in the peritoneal cavity was observed, which remained for 24 hours and 7 days post-infection. To better understand the migration of B-1 cells, we used mice CBA/N Xid (destitute of B-1 cells), reconstituted with B-1 cells, and infected with yeast P. brasiliensis. The results show that after the infection, the B-1 cells migrate from the peritoneal cavity to the spleen. Also, there was an increase in the number of T cells with regulatory cell phenotype (CD4+CD25+Foxp3+). Our results suggest that high production of IL-10 by B-1 cells, probably mediated by the binding of TLR-2, along with the ability of B-1 cells in activating T lymphocytes, with the ability to migrate from the peritoneum to the spleen and activate T regulatory cells, could favor the survival of the fungus in the host.

B-1 cells

Células T regulatórias

Linfócitos B-1

Migração

Migration

Paracoccidioides brasiliensis

Paracoccidioides brasiliensis

T regulatory cell

Estudo da interação de linfócitos B-1 com antígenos de Paracoccidioides brasilienses / Study of the interaction of B-1 lymphocytes with antigens of Paracoccidioides brasiliensis

Vanessa Rosa Noal

04 December 2009

Diversos dados na literatura têm demonstrado a participação de linfócitos B-1 em diferentes fenômenos imunológicos, tanto na resposta imune inata quanto na resposta imune adaptativa. Para melhor entendermos a ativação da resposta imune eficaz contra fungos patogênicos, pesquisamos a interação entre os linfócitos B-1 e o Paracoccidioides brasiliensis (P. brasiliensis), uma vez que este expressa moléculas antigênicas que podem ser reconhecidas pelo sistema imune. Utilizamos preparação antigênica do P. brasiliensis obtida de sua superfície leveduriforme denominada de CFA (antígeno livre da parede do fungo) e células leveduriforme do fungo. Observou-se que a maioria das células do sobrenadante da cultura celular de 4 dias de células totais aderentes peritoneais eram constituídos por linfócitos B-1; estas células expressam altos níveis de MHC-II (100%) e CD80 (90%). Contudo, não houve expressão significativa da molécula co-estimuladora CD86. Pela análise fenotípica, os linfócitos B-1 podem atuar como células apresentadoras de antígeno pois expressam CD80, CD86 e MHC-II; então realizamos o ensaio de proliferação celular utilizando linfócitos B-1 como células apresentadoras de antígenos e observamos proliferação celular de linfócitos TCD4+ significativa. Em relação às citocinas, analisamos a secreção de IL-10 e TNF-α do sobrenadante da cultura de linfócitos B-1 sem nenhum estímulo e observamos que estas células secretam tanto IL-10 quanto TNF-α; após estímulo de CFA, os valores aumentam significantemente. Analisamos a expressão de TLR-2, TLR-4, MyD88 e IL-10, por RT-PCR, dos linfócitos B-1 na presença de CFA. Encontramos expressão de TLR-2, MyD88 e IL-10 nas células com e sem estímulo. Analisamos a migração dos linfócitos B-1 da cavidade peritoneal de camundongos BALB/c após estímulo intraperitoneal (ip) com leveduras de PB. Decorridas 5 horas, foi observada grande diminuição dos linfócitos B-1 na cavidade peritoneal, que permanecia por 24 horas e 7 dias pós-infecção. Para melhor compreendermos a migração dos linfócitos B-1, foram utilizados camundongos CBA/N Xid (desprovidos de linfócitos B-1), cujo o peritônio foi reconstituído com linfócitos B-1, sendo infectados ip com leveduras de P brasiliensis. Os resultados demonstram que, após a infecção, os linfócitos B-1 migram da cavidade peritoneal para o baço. Também, observou-se aumento no número de células T com fenótipo de célula regulatória (CD4+CD25+Foxp3+). Nossos resultados sugerem que a elevada produção de IL-10 por células B-1, mediada provavelmente pela ligação de TLR-2, juntamente com a capacidade dos linfócitos B-1 em ativar linfócitos T, com a capacidade de migrar do peritônio para o baço e ativar células T regulatórias, poderia favorecer a sobrevivência do fungo no hospedeiro. / Innumerous data published in the literature have shown the involvement of B-1 cells in different immunological phenomena, both in the innate immnune response and the adaptive immune response. To better understand the activation of effective immune response against pathogenic fungi, we researched the interaction between B-1 cells and Paracoccidioides brasiliensis (P. brasiliensis), since it expresses that antigenic molecules can be recognized by the immune system. We used antigenic preparation of P. brasiliensis obtained from the surface of yeast called CFA (cell free antigen) and yeast cells of the fungus. It was observed that most cells in the cell culture supernatant 4 days of total adherent peritoneal cells consisted of B-1 cells, these cells express high levels of MHC-II (100%) and CD80 (90%). However, no significant expression of co-stimulatory molecule CD86 was observed. After phenotypic analysis, the B-1 cells can act as anyigen-presenting cells because they express C80, CD86 and MHC-II, then realized proliferation assay using B-1 cells as antigen presenting cells inducing was performed, and our results showed the significant proliferation of CD4 T cells. Regarding cytokines, we analyzed the IL-10 secretion and TNF-α in culture supernatant of B-1 cells without stimulation and found that these cells secrete both IL-10 and TNF-α, after stimulation of CFA. We analyzed the expression of TLR-2, TLR-4, MyD88 and IL-10 by RT-PCR, of the B-1 cells in the presence of CFA. We found expression of TLR-2, MyD88 and IL-10 cells with and without stimulus. We analyzed the migration of peritoneal B-1 cells after intraperitoneal (ip) infection with yeast from P. brasiliensis. After 5 hours, high decrease of B-1 cells in the peritoneal cavity was observed, which remained for 24 hours and 7 days post-infection. To better understand the migration of B-1 cells, we used mice CBA/N Xid (destitute of B-1 cells), reconstituted with B-1 cells, and infected with yeast P. brasiliensis. The results show that after the infection, the B-1 cells migrate from the peritoneal cavity to the spleen. Also, there was an increase in the number of T cells with regulatory cell phenotype (CD4+CD25+Foxp3+). Our results suggest that high production of IL-10 by B-1 cells, probably mediated by the binding of TLR-2, along with the ability of B-1 cells in activating T lymphocytes, with the ability to migrate from the peritoneum to the spleen and activate T regulatory cells, could favor the survival of the fungus in the host.

Células T regulatórias

Linfócitos B-1

Migração

Paracoccidioides brasiliensis

B-1 cells

Migration

Paracoccidioides brasiliensis

T regulatory cell

Papel das células B-1 na infecção por Leishmania (L.) amazonensis. / Role of B-1 cells in the infection by Leishmania (L.) amazonensis

Natália Soares Ferreira

20 April 2016

Parasitos do gênero Leishmania causam um espectro de doenças chamadas de leishmaniose. Para compreender de melhor forma a imunobiologia da Leishmania, o estudo de outras células envolvidas no processo de infecção do parasito se torna importante. As células B-1 são encontradas principalmente nas cavidades peritoneal e pleural, tendo como característica a capacidade de se diferenciar em células fagocíticas. Este trabalho teve como objetivo avaliar o papel das células B-1 na infecção por L. (L.) amazonensis. Os resultados mostraram que, assim como os macrófagos, os B-1CDPs são infectados pelo mecanismo de fagocitose e permitem a multiplicação da Leishmania no seu interior. Além disso, os vacúolos parasitóforos formados nos B-1CDPs apresentaram ser maiores do que dos macrófagos. Portanto, os dados com B1CDPs sugerem que estas células podem possuir um papel relevante na infecção por L. (L.) amazonensis, podendo ser considerados células hospedeiras importantes durante a infecção devido à incapacidade de responder de maneira eficaz para a eliminação dos parasitos. / The genus Leishmania parasites cause a spectrum of diseases called leishmaniasis. To better understand the immunobiology of Leishmania, the study of other cells involved in parasite infection process becomes important. The B-1 cells are found predominantly in the peritoneal and pleural cavities, whose feature consist on an ability to differentiate into phagocytic cells. This study aimed to evaluate the role of B-1 cells in the infection by L. (L.) amazonensis. The results showed that, like macrophages, B-1CDPs are infected by a mechanism of phagocytosis and allow the multiplication of Leishmania within. Furthermore, the parasitophorous vacuoles in the B-1CDPs showed to be larger than those formed in the macrophages. Therefore, B1CDPs can have an important role in infection by L. (L.) amazonensis and can be considered important host cells during infection due to inability to respond effectively to the elimination of parasites.

L. (L.) amazonensis

Células B-1

Macrófagos

Vacúolo parasitóforo

L. (L.) amazonensis

B-1 cells

Macrophages

Parasitophorous vacuole

Efeito do leite probiótico fermentado na resposta imune celular em cólon de camundongos BALB/c / Effect of probiotic fermented milk in immune cellular response of BALB/c mice colon

Cristina Stewart Bittencourt Bogsan

10 October 2012

O principal crescimento na indústria de alimentos funcionais corresponde ao dos produtos probióticos e prebióticos. A literatura mostra efeitos imunomoduladores de certas cepas probióticas, contudo, os resultados são às vezes controversos e os mecanismos implicados ainda são pouco elucidados. Sabe-se, no entanto que algumas cepas de probióticos aumentam significantemente a liberação de IL-10 e γ-INF modulando a resposta imune, além destas respostas serem de forma mais branda relacionada às bactérias Gram-positivas probióticas do que às Gram-positivas patogênicas. O presente trabalho teve como objetivo geral estudar o efeito do leite probiótico fermentado na resposta imune celular em cólon de camundongos BALB/c. Os objetivos específicos foram: (i) determinar o efeito imunomodulador do leite adicionado de probiótico em camundongos normais, (ii) identificar os tipos celulares implicados na resposta imune específica por citometria de fluxo e, (iii) colocalizá-los nos cortes histológicos. Simultaneamente, a análise e a comparação da resistência do probiótico à digestão gastrintestinal in vitro e a produção de metabólitos bioativos de acordo com os deferentes produtos foi realizada. Foram preparados leites nos quais as variáveis estudadas foram a tecnologia empregada para a produção das formulações (a) leite; (b) água, (c) leite não fermentado; (d) leite fermentado; (e) leite fermentado seguido de pasteurização, usando a mesma concentração da cepa comercial Bifidobacterium animalis subsp. lactis HOWARU HN019. O leite desnatado e a água foram usados como controles. / Functional food industry is in expansion mainly due to probiotic and prebiotic products. Studies have shown some probiotic strains develop immune modulation effect, however, these results are controversial and the mechanisms are not been well understood. Although, some probiotic strains increase IL-10 and γ-INF release modulating immune response, this response is weaker in probiotic strains when compared to pathogenic Gram-positive bacteria. The major aim of the present study was to assess the effect of probiotic fermented milk in cellular immune response of Balb/c mice colon. The specific objectives were: (i) to determine the immunomodulation of the milk added of probiotic in normal mice; (ii) to identify the cellular types implied in immune specific response and, (iii) to colocalize them in histological sections. Besides, the analyze and comparation of the probiotic resistance upon in vitro gastrointestinal and bioactive metabolites release in fermented or unfermented bifido milk using the same matrix, probiotic strain and probiotic dose in CFU. mL-1 were conducted. Dairy products were prepared in which variable form of technological appliance were: (i) milk, (ii) water, (iii) unfermented milk, (iv) fermented milk, and (v) fermented and heat treatment milk, all using Bifidobacterium subsp. lactis HOWARU HN019 strain in the same concentration. The skimmed milk and water were used as controls. The immune effects were evaluated by histological sections and the lymphocytic infiltrated was analyzed by flow citometry and histology.

Alimentos funcionais

Bifidobactéria

Células B-1

Imuno modulação

Interação matriz-mucosa-probiotico

Leite fermentado

B-1 cell

Bifidobacterium

Fermented milk

Functional food

Immune modulation

Matrix-mucosa-probiotic interaction

Efeito do leite probiótico fermentado na resposta imune celular em cólon de camundongos BALB/c / Effect of probiotic fermented milk in immune cellular response of BALB/c mice colon

Bogsan, Cristina Stewart Bittencourt

10 October 2012

O principal crescimento na indústria de alimentos funcionais corresponde ao dos produtos probióticos e prebióticos. A literatura mostra efeitos imunomoduladores de certas cepas probióticas, contudo, os resultados são às vezes controversos e os mecanismos implicados ainda são pouco elucidados. Sabe-se, no entanto que algumas cepas de probióticos aumentam significantemente a liberação de IL-10 e γ-INF modulando a resposta imune, além destas respostas serem de forma mais branda relacionada às bactérias Gram-positivas probióticas do que às Gram-positivas patogênicas. O presente trabalho teve como objetivo geral estudar o efeito do leite probiótico fermentado na resposta imune celular em cólon de camundongos BALB/c. Os objetivos específicos foram: (i) determinar o efeito imunomodulador do leite adicionado de probiótico em camundongos normais, (ii) identificar os tipos celulares implicados na resposta imune específica por citometria de fluxo e, (iii) colocalizá-los nos cortes histológicos. Simultaneamente, a análise e a comparação da resistência do probiótico à digestão gastrintestinal in vitro e a produção de metabólitos bioativos de acordo com os deferentes produtos foi realizada. Foram preparados leites nos quais as variáveis estudadas foram a tecnologia empregada para a produção das formulações (a) leite; (b) água, (c) leite não fermentado; (d) leite fermentado; (e) leite fermentado seguido de pasteurização, usando a mesma concentração da cepa comercial Bifidobacterium animalis subsp. lactis HOWARU HN019. O leite desnatado e a água foram usados como controles. / Functional food industry is in expansion mainly due to probiotic and prebiotic products. Studies have shown some probiotic strains develop immune modulation effect, however, these results are controversial and the mechanisms are not been well understood. Although, some probiotic strains increase IL-10 and γ-INF release modulating immune response, this response is weaker in probiotic strains when compared to pathogenic Gram-positive bacteria. The major aim of the present study was to assess the effect of probiotic fermented milk in cellular immune response of Balb/c mice colon. The specific objectives were: (i) to determine the immunomodulation of the milk added of probiotic in normal mice; (ii) to identify the cellular types implied in immune specific response and, (iii) to colocalize them in histological sections. Besides, the analyze and comparation of the probiotic resistance upon in vitro gastrointestinal and bioactive metabolites release in fermented or unfermented bifido milk using the same matrix, probiotic strain and probiotic dose in CFU. mL-1 were conducted. Dairy products were prepared in which variable form of technological appliance were: (i) milk, (ii) water, (iii) unfermented milk, (iv) fermented milk, and (v) fermented and heat treatment milk, all using Bifidobacterium subsp. lactis HOWARU HN019 strain in the same concentration. The skimmed milk and water were used as controls. The immune effects were evaluated by histological sections and the lymphocytic infiltrated was analyzed by flow citometry and histology.

Alimentos funcionais

B-1 cell

Bifidobactéria

Bifidobacterium

Células B-1

Fermented milk

Functional food

Immune modulation

Imuno modulação

Interação matriz-mucosa-probiotico

Leite fermentado

Matrix-mucosa-probiotic interaction

B-1 and B-2 B cell responses to lipopolysaccharide: Putative roles in the pathogenesis of periodontitis.

Philips, Julia Rachel

January 2006

Master of Science / Periodontal disease is one of the most widespread diseases in humans and is characterised by chronic gingival inflammation and B cell accumulation and resorption of the crest of alveolar bone with subsequent loss of teeth. Porphyromonas gingivalis has been identified as a putative aetiological agent for periodontitis. The aim of the research presented in this thesis was to investigate, using in vitro systems, the responses of autoreactive B-1 and B-2 cells to enterobacterial and nonenterobacterial lipopolysaccharide (LPS) to shed light on the pathogenesis of chronic periodontitis and other diseases involving B cell accumulation and autoantibody production. The hypotheses tested were: (1) B cells respond differently to enterobacterial and non-enterobacterial LPS. (2) B-1 cells are activated by a lower concentration of LPS than B-2 cells. (3) LPS stimulation results in preferential accumulation of B-1 cells. Findings consistent with these hypotheses would provide new evidence for different roles for B-1 and B-2 cells in immune responses and that LPS stimulation could lead to B-1 cell accumulation in diseases thus characterised. Initial experiments investigated the responses of representative B-1 (CH12) and B-2 (WEHI-279) cell lines to preparations of P. gingivalis and Salmonella enteritidis LPS utilising flow cytometric and quantitative molecular methods. The cell lines responded differently to the two LPS preparations. There were significant but limited effects on viability and proliferation in the WEHI-279 cell line, but no significant changes in mRNA expression levels for genes including Toll-like receptors (TLR2, TLR4, RP105), immunoglobulin (IgM), cytokines (IL-6, IL-10), co-stimulatory molecules (CD80, CD86), and regulators of apoptosis (Bcl-2, Bax). In the CH12 cell line however, LPS stimulation had greater effect. Addition of S. enteritidis LPS from a threshold level of 100ng/mL was found to rescue the cells from death, reflected by the percentage viability and proliferation. Stimulation of CH12 cells with S. enteritidis LPS also led to a decrease in expression of RP105 mRNA, which may be part of a negative feedback loop. Interestingly, stimulation with low concentrations P. gingivalis LPS appeared to inhibit proliferation but high LPS concentrations stimulated proliferation of CH12 cells, although no further significant effects were noted in other analyses. Evidence was found that CH12 cells have a high basal level of activation. This suggests that this line is constitutively activated. Stimulation with P. gingivalis or S. enteritidis LPS did not affect the level of CD80 mRNA expression. It is possible that the CH12 line constitutively expresses a maximal level of CD80 (and possibly CD86) and further stimulation will not cause any increase. Since S. enteritidis LPS appeared to have more pronounced effects on both B cell populations, this LPS was used to further investigate B cell subset responses in a mixed splenocyte culture system. Experiments examining percentage viability and number of viable cells indicated that B-1 and B-2 B cells responded differently to LPS stimulation. A threshold level for B-2 cell response (significant increase in cell number) was found to be 100ng/mL LPS, in contrast to the B-1 B cell subset which were only significantly different to the unstimulated cells when stimulated with 50μg/mL LPS. By examining the expression of CD80, the majority of murine splenic B-1 cells were found to activated prior to any LPS stimulation in vitro. In contrast, the B-2 subset showed significant increase in CD80 expression only at high (≥10μg/mL) LPS concentrations. Studies of the division index of B-1 and B-2 cells showed a significant response in both subsets following stimulation with 1μg/mL and 10μg/mL LPS. However, overall, the results are inconsistent with LPS driving the preferential accumulation of B-1 cells in disease states. These experiments provided useful evidence that supported the idea that B-1 and B-2 cells respond differently to LPS. However, these studies were unable to directly address the role of P. gingivalis LPS in periodontitis. It may be that P. gingivalis LPS could have different effects to S. enteritidis LPS on primary B cells. It is still possible that B-1 cells may be more sensitive to P. gingivalis, as opposed to S. enteritidis LPS. Studies by other groups have suggested that the TH1/TH2 profile is skewed towards TH2 in chronic periodontitis and that P. gingivalis may drive this shift via its ability to signal through TLR2 (and modulate TLR4 signalling). Further, recent studies in our laboratories have found that P. gingivalis gingipains are able to polyclonally activate B cells and to break down both IFNγ and IL-12. Future studies should further examine the effects of B-1 and B-2 interactions in the mixed lymphocyte system together with subsequent studies utilising human periodontitis biopsies. The results presented in this thesis, together with work undertaken by other investigators, suggests that LPS could perturb the normal homeostatic mechanisms of the B-1 B cell-subset and increase polyclonal activation therefore contributing to the genesis of pathologies such as chronic periodontitis.

B-1 B cells

lipopolysaccharide

periodontitis

murine model

B-2 B cells

Human B Cell Responses to Infection with Pathogenic and Commensal Neisseria Species

So, Nancy Suk Yin

19 November 2013

The Neisseria genus includes pathogens, Neisseria gonorrhoeae (Ngo) and Neisseria meningitidis, as well as commensals. Ngo, the cause of gonorrhea, induces massive inflammation but a surprising lack of adaptive immune responses. We have observed that Ngo can inhibit both T cell activation and dendritic cell maturation through interaction with the host expressed co-inhibitory receptor carcinoembryonic antigen-related cell adhesion molecule 1 (CEACAM1). Therefore, I wondered whether B cells may also be affected in this manner. Herein, I examine primary human B cell responses to infection with Ngo, as well as the other Neisseria species. B cells infected with Ngo show no sign of inhibition, regardless of their ability to bind CEACAM1, instead responding to gonococci with robust activation and proliferation. There are distinct subsets of B cells found in the periphery and, intriguingly, the IgM memory B cell subset expand and produce polyreactive IgM in response to goncoccal infection. These cells are innate in function, producing low affinity, polyclonal IgM that is protective against bacterial and fungal dissemination. This effect was broadly specific for Neisseria sp., as B cell infection with all commensal Neisseria species examined induced innate B cell responses. Curiously, meningococcal strains avoid inducing the innate B cell responses, making it enticing to hypothesize that its avoidance of such an ancient immune response may contribute to its ability to cause disease in humans. Finally, I tested whether gonococcal Opa protein binding to CEACAM1 affects primary human B cell activation, and show that no inhibition was observed. This absence of co-inhibitory function of neisserial-bound CEACAM1 may reflect inherent differences between distinctive cell types. Combined, the results in this thesis contribute new insight regarding the poorly characterized human IgM memory B cells, as well as to the function of CEACAM1 in lymphocytes.

neisseria

IgM memory

innate

B-1

commensal

CEACAM1

human

B cell

lactamica

gonorrhoeae

meningitidis

0982

0410

Human B Cell Responses to Infection with Pathogenic and Commensal Neisseria Species

So, Nancy Suk Yin

19 November 2013

The Neisseria genus includes pathogens, Neisseria gonorrhoeae (Ngo) and Neisseria meningitidis, as well as commensals. Ngo, the cause of gonorrhea, induces massive inflammation but a surprising lack of adaptive immune responses. We have observed that Ngo can inhibit both T cell activation and dendritic cell maturation through interaction with the host expressed co-inhibitory receptor carcinoembryonic antigen-related cell adhesion molecule 1 (CEACAM1). Therefore, I wondered whether B cells may also be affected in this manner. Herein, I examine primary human B cell responses to infection with Ngo, as well as the other Neisseria species. B cells infected with Ngo show no sign of inhibition, regardless of their ability to bind CEACAM1, instead responding to gonococci with robust activation and proliferation. There are distinct subsets of B cells found in the periphery and, intriguingly, the IgM memory B cell subset expand and produce polyreactive IgM in response to goncoccal infection. These cells are innate in function, producing low affinity, polyclonal IgM that is protective against bacterial and fungal dissemination. This effect was broadly specific for Neisseria sp., as B cell infection with all commensal Neisseria species examined induced innate B cell responses. Curiously, meningococcal strains avoid inducing the innate B cell responses, making it enticing to hypothesize that its avoidance of such an ancient immune response may contribute to its ability to cause disease in humans. Finally, I tested whether gonococcal Opa protein binding to CEACAM1 affects primary human B cell activation, and show that no inhibition was observed. This absence of co-inhibitory function of neisserial-bound CEACAM1 may reflect inherent differences between distinctive cell types. Combined, the results in this thesis contribute new insight regarding the poorly characterized human IgM memory B cells, as well as to the function of CEACAM1 in lymphocytes.

neisseria

IgM memory

innate

B-1

commensal

CEACAM1

human

B cell

lactamica

gonorrhoeae

meningitidis

0982

0410

B-1 and B-2 B cell responses to lipopolysaccharide: Putative roles in the pathogenesis of periodontitis.

Philips, Julia Rachel

January 2006

Master of Science / Periodontal disease is one of the most widespread diseases in humans and is characterised by chronic gingival inflammation and B cell accumulation and resorption of the crest of alveolar bone with subsequent loss of teeth. Porphyromonas gingivalis has been identified as a putative aetiological agent for periodontitis. The aim of the research presented in this thesis was to investigate, using in vitro systems, the responses of autoreactive B-1 and B-2 cells to enterobacterial and nonenterobacterial lipopolysaccharide (LPS) to shed light on the pathogenesis of chronic periodontitis and other diseases involving B cell accumulation and autoantibody production. The hypotheses tested were: (1) B cells respond differently to enterobacterial and non-enterobacterial LPS. (2) B-1 cells are activated by a lower concentration of LPS than B-2 cells. (3) LPS stimulation results in preferential accumulation of B-1 cells. Findings consistent with these hypotheses would provide new evidence for different roles for B-1 and B-2 cells in immune responses and that LPS stimulation could lead to B-1 cell accumulation in diseases thus characterised. Initial experiments investigated the responses of representative B-1 (CH12) and B-2 (WEHI-279) cell lines to preparations of P. gingivalis and Salmonella enteritidis LPS utilising flow cytometric and quantitative molecular methods. The cell lines responded differently to the two LPS preparations. There were significant but limited effects on viability and proliferation in the WEHI-279 cell line, but no significant changes in mRNA expression levels for genes including Toll-like receptors (TLR2, TLR4, RP105), immunoglobulin (IgM), cytokines (IL-6, IL-10), co-stimulatory molecules (CD80, CD86), and regulators of apoptosis (Bcl-2, Bax). In the CH12 cell line however, LPS stimulation had greater effect. Addition of S. enteritidis LPS from a threshold level of 100ng/mL was found to rescue the cells from death, reflected by the percentage viability and proliferation. Stimulation of CH12 cells with S. enteritidis LPS also led to a decrease in expression of RP105 mRNA, which may be part of a negative feedback loop. Interestingly, stimulation with low concentrations P. gingivalis LPS appeared to inhibit proliferation but high LPS concentrations stimulated proliferation of CH12 cells, although no further significant effects were noted in other analyses. Evidence was found that CH12 cells have a high basal level of activation. This suggests that this line is constitutively activated. Stimulation with P. gingivalis or S. enteritidis LPS did not affect the level of CD80 mRNA expression. It is possible that the CH12 line constitutively expresses a maximal level of CD80 (and possibly CD86) and further stimulation will not cause any increase. Since S. enteritidis LPS appeared to have more pronounced effects on both B cell populations, this LPS was used to further investigate B cell subset responses in a mixed splenocyte culture system. Experiments examining percentage viability and number of viable cells indicated that B-1 and B-2 B cells responded differently to LPS stimulation. A threshold level for B-2 cell response (significant increase in cell number) was found to be 100ng/mL LPS, in contrast to the B-1 B cell subset which were only significantly different to the unstimulated cells when stimulated with 50μg/mL LPS. By examining the expression of CD80, the majority of murine splenic B-1 cells were found to activated prior to any LPS stimulation in vitro. In contrast, the B-2 subset showed significant increase in CD80 expression only at high (≥10μg/mL) LPS concentrations. Studies of the division index of B-1 and B-2 cells showed a significant response in both subsets following stimulation with 1μg/mL and 10μg/mL LPS. However, overall, the results are inconsistent with LPS driving the preferential accumulation of B-1 cells in disease states. These experiments provided useful evidence that supported the idea that B-1 and B-2 cells respond differently to LPS. However, these studies were unable to directly address the role of P. gingivalis LPS in periodontitis. It may be that P. gingivalis LPS could have different effects to S. enteritidis LPS on primary B cells. It is still possible that B-1 cells may be more sensitive to P. gingivalis, as opposed to S. enteritidis LPS. Studies by other groups have suggested that the TH1/TH2 profile is skewed towards TH2 in chronic periodontitis and that P. gingivalis may drive this shift via its ability to signal through TLR2 (and modulate TLR4 signalling). Further, recent studies in our laboratories have found that P. gingivalis gingipains are able to polyclonally activate B cells and to break down both IFNγ and IL-12. Future studies should further examine the effects of B-1 and B-2 interactions in the mixed lymphocyte system together with subsequent studies utilising human periodontitis biopsies. The results presented in this thesis, together with work undertaken by other investigators, suggests that LPS could perturb the normal homeostatic mechanisms of the B-1 B cell-subset and increase polyclonal activation therefore contributing to the genesis of pathologies such as chronic periodontitis.

B-1 B cells

lipopolysaccharide

periodontitis

murine model

B-2 B cells