Systems analysis and characterization of mucosal immunity

Philipson, Casandra Washington

28 July 2015

During acute and chronic infectious diseases hosts develop complex immune responses to cope with bacterial persistence. Depending on a variety of host and microbe factors, outcomes range from peaceful co-existence to detrimental disease. Mechanisms underlying immunity to bacterial stimuli span several spatiotemporal magnitudes and the summation of these hierarchical interactions plays a decisive role in pathogenic versus tolerogenic fate for the host. This dissertation integrates diverse data from immunoinformatics analyses, experimental validation and mathematical modeling to investigate a series of hypotheses driven by computational modeling to study mucosal immunity. Two contrasting microbes, enteroaggregative Escherichia coli and Helicobacter pylori, are used to perturb gut immunity in order to discover host-centric targets for modulating the host immune system. These findings have the potential to be broadly applicable to other infectious and immune-mediated diseases and could assist in the development of antibiotic-free and host-targeted treatments that modulate tolerance to prevent disease. / Ph. D.

Gut inflammation

Enteroaggregative Escherichia coli

Helicobacter pylori

computational modeling

immunology

immunoinformatics

Efeito da infecção crônica por Toxoplasma gondii durante a sepse polimicrobiana experimental / Effect of chronic infection by Toxoplasma gondii during experimental polymicrobial sepsis.

Souza, Maria do Carmo

15 April 2013

A maioria dos estudos da interação parasito-hospedeiro tem focado na interação de um único patógeno. Porém, o hospedeiro em um ambiente natural é comumente exposto a múltiplos patógenos sequencialmente ou mesmo simultaneamente. Diversos estudos têm utilizado o modelo de Ligadura e perfuração do Ceco (CLP) para estudar a sepse, mas nenhum deles apresentou modelo de coinfecção ou estudo avaliando o papel de infecções prévias no desfecho da sepse polimicrobiana experimental. Neste contexto, nossa hipótese é de que a infecção crônica por parasitos poderia alterar o curso da resposta durante a sepse polimicrobiana. Para testar essa hipótese, animais C57BL/6 ou BALB/c foram infectados com 5 ou 20 cistos da cepa ME 49 de Toxoplasma gondii e 40 dias após a infecção os animais foram induzidos à sepse polimicrobiana. Em nosso estudo, 100% dos animais cronicamente infectados por T. gondii morreram num período de 24 horas após CLP. O mesmo não foi observado quando animais foram infectados cronicamente com os parasitos Leishmania major e Trypanosoma cruzi ou com o fungo Paracoccidioides brasiliensis. Um dado interessante em nosso estudo foi que, nos animais previamente infectados com T. gondii, constatamos melhora na eliminação de bactérias liberadas pela CLP e aumento do recrutamento celular para o sítio da infecção. Apesar de esses animais apresentarem melhora na resposta contra as bactérias, verificamos a presença de lesão intestinal e maior infiltrado inflamatório neste órgão, associado a um aumento da produção de citocinas pró-inflamatórias (IFN-, TNF-, IL-6 e IL-1) e consequente aumento de óxido nítrico (NO), num período de 24 horas depois da CLP. Verificamos que as células TCD4+ e TCD8+ são responsáveis pela produção de IFN- e TNF- nesse modelo de coinfecção, e em modelo in vitro, que macrófagos podem ser responsáveis pela produção de IL-1 dependente de ativação do inflamassoma NLRP3/ASC/Caspase 1. Neste estudo, observamos que a rápida resposta contra a CLP acontece em função da presença de células de memória de padrão Th1, induzidas na infecção por T. gondii. Dessa forma, esse trabalho mostra que a infecção crônica por T. gondii agrava a sepse polimicrobiana subletal, por aumentar a produção de citocinas pró-inflamatórias IL-6, TNF- e IL-1, com a indução de hipotensão, predispondo ao choque séptico. / Most studies of parasite-host interaction have focused on the interaction of a single pathogen with cells or organism of the host. However, in a natural enviroment, the host is commonly exposed to multiple pathogens sequentially or even simultaneously. Several studies have used the model of cecal ligation and puncture (CLP) to study sepsis, but none of them evaluated the effect of the presence of previous infections to the outcome of polymicrobial sepsis. In this context, we hypothesized that chronic infection with Toxoplasma gondii could alter the course of host response against polymicrobial sepsis. To test this hypothesis, C57BL/6 or BALB/c mice were orally infected with 5 or 20 cysts of ME-49 strain of T. gondii and 40 days post infection, they were subjected to CLP. When mice were chronically infected with T. gondii, 100% of the animals died within 24 hours after CLP. The same phenomenons were not observed in animals previously infected with other parasites, such as Leishmania major and Trypanosoma cruzi or the fungus Paracoccidioides brasiliensis. Interestingly, when we evaluated the response against the CLP in animals that were infected with T. gondii, we found an improvement in the killing of bacteria released by CLP and an increase in recruitment of inflammatory cells to the site of infection. However, despite the fact that these animals have improved response against the bacterial infection, they presented intestinal damage and increased inflammatory infiltrate in this organ. The animals also had increased pro-inflammatory cytokines (IFN-, TNF-, IL-6 and IL-1), and nitric oxide (NO) detected within 24 hours after CLP. We also found that the TCD4+ and TCD8+ cells were responsible to produce IFN- and TNF-, and, using an in vitro model, we verified that macrophages are primarily responsible for the production of IL-1 in a pathway dependent on the activation of NLRP3/ASC/Caspase 1 inflamassoma. In this study, we found that early response against CLP happens due to the presence of mainly Th1 memory cells, induced by T. gondii infection. Finally, we found that chronic infection with T. gondii aggravates sublethal polymicrobial sepsis by increasing the cytokines IL-6, TNF- and IL-1, with induction of hypotension that predispose to septic shock.

Choque séptico

CLP

CLP

Gut Inflammation

Imunidade da mucosa

Inflamação intestinal

Mucosal Immunity

Sepse

Sepsis

Septic shock.

Toxoplasma gondii

Toxoplasma gondii

Efeito da infecção crônica por Toxoplasma gondii durante a sepse polimicrobiana experimental / Effect of chronic infection by Toxoplasma gondii during experimental polymicrobial sepsis.

Maria do Carmo Souza

15 April 2013

A maioria dos estudos da interação parasito-hospedeiro tem focado na interação de um único patógeno. Porém, o hospedeiro em um ambiente natural é comumente exposto a múltiplos patógenos sequencialmente ou mesmo simultaneamente. Diversos estudos têm utilizado o modelo de Ligadura e perfuração do Ceco (CLP) para estudar a sepse, mas nenhum deles apresentou modelo de coinfecção ou estudo avaliando o papel de infecções prévias no desfecho da sepse polimicrobiana experimental. Neste contexto, nossa hipótese é de que a infecção crônica por parasitos poderia alterar o curso da resposta durante a sepse polimicrobiana. Para testar essa hipótese, animais C57BL/6 ou BALB/c foram infectados com 5 ou 20 cistos da cepa ME 49 de Toxoplasma gondii e 40 dias após a infecção os animais foram induzidos à sepse polimicrobiana. Em nosso estudo, 100% dos animais cronicamente infectados por T. gondii morreram num período de 24 horas após CLP. O mesmo não foi observado quando animais foram infectados cronicamente com os parasitos Leishmania major e Trypanosoma cruzi ou com o fungo Paracoccidioides brasiliensis. Um dado interessante em nosso estudo foi que, nos animais previamente infectados com T. gondii, constatamos melhora na eliminação de bactérias liberadas pela CLP e aumento do recrutamento celular para o sítio da infecção. Apesar de esses animais apresentarem melhora na resposta contra as bactérias, verificamos a presença de lesão intestinal e maior infiltrado inflamatório neste órgão, associado a um aumento da produção de citocinas pró-inflamatórias (IFN-, TNF-, IL-6 e IL-1) e consequente aumento de óxido nítrico (NO), num período de 24 horas depois da CLP. Verificamos que as células TCD4+ e TCD8+ são responsáveis pela produção de IFN- e TNF- nesse modelo de coinfecção, e em modelo in vitro, que macrófagos podem ser responsáveis pela produção de IL-1 dependente de ativação do inflamassoma NLRP3/ASC/Caspase 1. Neste estudo, observamos que a rápida resposta contra a CLP acontece em função da presença de células de memória de padrão Th1, induzidas na infecção por T. gondii. Dessa forma, esse trabalho mostra que a infecção crônica por T. gondii agrava a sepse polimicrobiana subletal, por aumentar a produção de citocinas pró-inflamatórias IL-6, TNF- e IL-1, com a indução de hipotensão, predispondo ao choque séptico. / Most studies of parasite-host interaction have focused on the interaction of a single pathogen with cells or organism of the host. However, in a natural enviroment, the host is commonly exposed to multiple pathogens sequentially or even simultaneously. Several studies have used the model of cecal ligation and puncture (CLP) to study sepsis, but none of them evaluated the effect of the presence of previous infections to the outcome of polymicrobial sepsis. In this context, we hypothesized that chronic infection with Toxoplasma gondii could alter the course of host response against polymicrobial sepsis. To test this hypothesis, C57BL/6 or BALB/c mice were orally infected with 5 or 20 cysts of ME-49 strain of T. gondii and 40 days post infection, they were subjected to CLP. When mice were chronically infected with T. gondii, 100% of the animals died within 24 hours after CLP. The same phenomenons were not observed in animals previously infected with other parasites, such as Leishmania major and Trypanosoma cruzi or the fungus Paracoccidioides brasiliensis. Interestingly, when we evaluated the response against the CLP in animals that were infected with T. gondii, we found an improvement in the killing of bacteria released by CLP and an increase in recruitment of inflammatory cells to the site of infection. However, despite the fact that these animals have improved response against the bacterial infection, they presented intestinal damage and increased inflammatory infiltrate in this organ. The animals also had increased pro-inflammatory cytokines (IFN-, TNF-, IL-6 and IL-1), and nitric oxide (NO) detected within 24 hours after CLP. We also found that the TCD4+ and TCD8+ cells were responsible to produce IFN- and TNF-, and, using an in vitro model, we verified that macrophages are primarily responsible for the production of IL-1 in a pathway dependent on the activation of NLRP3/ASC/Caspase 1 inflamassoma. In this study, we found that early response against CLP happens due to the presence of mainly Th1 memory cells, induced by T. gondii infection. Finally, we found that chronic infection with T. gondii aggravates sublethal polymicrobial sepsis by increasing the cytokines IL-6, TNF- and IL-1, with induction of hypotension that predispose to septic shock.

Choque séptico

CLP

Imunidade da mucosa

Inflamação intestinal

Sepse

Toxoplasma gondii

CLP

Gut Inflammation

Mucosal Immunity

Sepsis

Septic shock.

Toxoplasma gondii

Functional Changes in the Gut Microbiome Contribute to Transforming Growth Factor β-Deficient Colon Cancer

Daniel, Scott G., Ball, Corbie L., Besselsen, David G., Doetschman, Tom, Hurwitz, Bonnie L.

26 September 2017

Colorectal cancer (CRC) is one of the most treatable cancers, with a 5-year survival rate of similar to 64%, yet over 50,000 deaths occur yearly in the United States. In 15% of cases, deficiency in mismatch repair leads to null mutations in transforming growth factor beta (TGF-beta) type II receptor, yet genotype alone is not responsible for tumorigenesis. Previous work in mice shows that disruptions in TGF-beta signaling combined with Helicobacter hepaticus cause tumorigenesis, indicating a synergistic effect between genotype and microbial environment. Here, we examine functional shifts in the gut microbiome in CRC using integrated - omics approaches to untangle the role of host genotype, inflammation, and microbial ecology. We profile the gut microbiome of 40 mice with/without deficiency in TGF-beta signaling from a Smad3 (mothers against decapentaplegic homolog-3) knockout and with/without inoculation with H. hepaticus. Clear functional differences in the microbiome tied to specific bacterial species emerge from four pathways related to human colon cancer: lipopolysaccharide (LPS) production, polyamine synthesis, butyrate metabolism, and oxidative phosphorylation (OXPHOS). Specifically, an increase in Mucispirillum schaedleri drives LPS production, which is associated with an inflammatory response. We observe a commensurate decrease in butyrate production from Lachnospiraceae bacterium A4, which could promote tumor formation. H. hepaticus causes an increase in OXPHOS that may increase DNA-damaging free radicals. Finally, multiple bacterial species increase polyamines that are associated with colon cancer, implicating not just diet but also the microbiome in polyamine levels. These insights into cross talk between the microbiome, host genotype, and inflammation could promote the development of diagnostics and therapies for CRC. IMPORTANCE Most research on the gut microbiome in colon cancer focuses on taxonomic changes at the genus level using 16S rRNA gene sequencing. Here, we develop a new methodology to integrate DNA and RNA data sets to examine functional shifts at the species level that are important to tumor development. We uncover several metabolic pathways in the microbiome that, when perturbed by host genetics and H. hepaticus inoculation, contribute to colon cancer. The work presented here lays a foundation for improved bioinformatics methodologies to closely examine the cross talk between specific organisms and the host, important for the development of diagnostics and pre/probiotic treatment.

Helicobacter hepaticus

Smad3

bioinformatics

butyrate

colon cancer

gut inflammation

gut microbiome

host-pathogen interactions

metagenomics

metatranscriptomics

polyamines