Malin Sundquist scite author profile

Persistent colonization with the gastric bacterial pathogen Helicobacter pylori causes gastritis and predisposes infected individuals to gastric cancer. Conversely, it is also linked to protection from allergic, chronic inflammatory, and autoimmune diseases. We demonstrate here that H. pylori inhibits LPS-induced maturation of DCs and reprograms DCs toward a tolerance-promoting phenotype. Our results showed that DCs exposed to H. pylori in vitro or in vivo failed to induce T cell effector functions. Instead, they efficiently induced expression of the forkhead transcription factor FoxP3, the master regulator of Tregs, in naive T cells. Depletion of DCs in mice infected with H. pylori during the neonatal period was sufficient to break H. pylori-specific tolerance. DC depletion resulted in improved control of the infection but also aggravated T cell-driven immunopathology. Consistent with the mouse data, DCs infiltrating the gastric mucosa of human H. pylori carriers exhibited a semimature DC-SIGN

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Human Mucosa-Associated Invariant T Cells Accumulate in Colon Adenocarcinomas but Produce Reduced Amounts of IFN-γ

Sundström

et al. 2015

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Mucosa-associated invariant T (MAIT) cells are innate-like T cells with a conserved TCR α-chain recognizing bacterial metabolites presented on the invariant MHC-related 1 molecule. MAIT cells are present in intestinal tissues and liver, and they rapidly secrete IFN-γ and IL-17 in response to bacterial insult. In colon cancer, IL-17–driven inflammation promotes tumor progression, whereas IFN-γ production is essential for antitumor immunity. Thus, tumor-associated MAIT cells may affect antitumor immune responses by their secreted cytokines. However, the knowledge of MAIT cell presence and function in tumors is virtually absent. In this study, we determined the frequency, phenotype, and functional capacity of MAIT cells in colon adenocarcinomas and unaffected colon lamina propria. Flow cytometric analyses showed significant accumulation of MAIT cells in tumor tissue, irrespective of tumor stage or localization. Colonic MAIT cells displayed an activated memory phenotype and expression of chemokine receptors CCR6 and CCR9. Most MAIT cells in unaffected colon tissues produced IFN-γ, whereas only few produced IL-17. Colonic MAIT cells also produced TNF-α, IL-2, and granzyme B. In the tumors, significantly lower frequencies of IFN-γ–producing MAIT cells were seen, whereas there were no differences in the other cytokines analyzed, and in vitro studies showed that secreted factors from tumor tissue reduced IFN-γ production from MAIT cells. In conclusion, MAIT cells infiltrate colon tumors but their ability to produce IFN-γ is substantially reduced. We suggest that MAIT cells have the capacity to promote local immune responses to tumors, but factors in the tumor microenvironment act to reduce MAIT cell IFN-γ production.

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Early cellular responses to Salmonella infection: dendritic cells, monocytes, and more

Tam

Rydström

Sundquist

et al. 2008

Immunological Reviews

134

142

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Dendritic cells (DCs), monocytes, macrophages, and neutrophils are myeloid-derived phagocytes critical to controlling bacterial infections, and these cells have complementary functions to ensure host survival. Recent data have shed light on the dynamics and function of myeloid cells at the early stage of infection. In particular, murine infection models with Salmonella enterica serovar Typhimurium have been useful for understanding the host response required to develop immunity to systemic salmonellosis. This review summarizes the early cellular responses in the intestinal lymphoid tissues to Salmonella and discusses Peyer's patch-dependent and -independent penetration of bacteria through the intestinal epithelium. Once Salmonella accesses host tissue, phagocytes respond by recruitment, redistribution, and activation in intestinal tissues. Recruited monocytes are specialized in controlling bacterial replication by producing anti-microbial molecules but are poor antigen-presenting cells. In contrast, DCs undergo maturation by direct (bacteria-mediated) and indirect (cytokine-mediated) pathways in vivo to optimize their antigen presentation capacity, and directly matured DCs have unique mechanisms to ensure T-cell stimulation. Toll-like receptor signaling is critical to DC maturation and myeloid cell recruitment during Salmonella infection, and the role of myeloid differentiation factor 88 (MyD88)-dependent and MyD88-independent pathways as well as proinflammatory cytokines and type 1 interferons in these processes are discussed.

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TNF-α-Dependent and -Independent Maturation of Dendritic Cells and Recruited CD11cintCD11b+ Cells during Oral Salmonella Infection

Sundquist

Wick

2005

114

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Maturation of dendritic cells (DC) is crucial for their ability to induce adaptive immunity. Although several mediators of DC maturation have been found, their contributions to DC maturation during infection are poorly understood. In this study we show that murine conventional (CD11chigh) DC up-regulate costimulatory molecules in a subset-specific manner after oral Salmonella infection. Although both CD8α+ and CD8α− subsets increase CD86 expression, CD40 was preferentially up-regulated on CD8α+ DC, and CD80 was preferentially increased on CD8α− DC. In addition, high levels of CD80 and CD86 were found on CD11cintCD11b+ cells that accumulated in infected organs. Costimulatory molecules were simultaneously induced on CD11chigh and CD11cintCD11b+ cells in Peyer’s patches, mesenteric lymph nodes and spleen 5 days after infection despite different kinetics of peak bacterial burden in these organs. Up-regulation of costimulatory molecules occurred on all DC within the respective subset. Moreover, <1% of CD11c-expressing cells associated with Salmonella expressing enhanced GFP in vivo. Thus, DC maturation did not depend on bacterial uptake. Rather, infection-induced up-regulation of CD80, CD86, and CD40 on CD11c-expressing cells of mesenteric lymph nodes was dependent on TNFR type I (TNFRI) signaling. Although indirect up-regulation of costimulatory molecules on DC and CD11cintCD11b+ cells was TNFRI dependent, cells directly associated with Salmonella were able to mature independently of TNFRI signaling. Thus, Salmonella-induced TNF-α is an important mediator of indirect DC maturation during infection, whereas a TNF-α-independent maturation pathway contributes to direct maturation of bacteria-associated DC.

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Enhanced M1 Macrophage Polarization in Human Helicobacter pylori-Associated Atrophic Gastritis and in Vaccinated Mice

2010

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BackgroundInfection with Helicobacter pylori triggers a chronic gastric inflammation that can progress to atrophy and gastric adenocarcinoma. Polarization of macrophages is a characteristic of both cancer and infection, and may promote progression or resolution of disease. However, the role of macrophages and their polarization during H. pylori infection has not been well defined.Methodology/Principal FindingsBy using a mouse model of infection and gastric biopsies from 29 individuals, we have analyzed macrophage recruitment and polarization during H. pylori infection by flow cytometry and real-time PCR. We found a sequential recruitment of neutrophils, eosinophils and macrophages to the gastric mucosa of infected mice. Gene expression analysis of stomach tissue and sorted macrophages revealed that gastric macrophages were polarized to M1 after H. pylori infection, and this process was substantially accelerated by prior vaccination. Human H. pylori infection was characterized by a mixed M1/M2 polarization of macrophages. However, in H. pylori-associated atrophic gastritis, the expression of inducible nitric oxide synthase was markedly increased compared to uncomplicated gastritis, indicative of an enhanced M1 macrophage polarization in this pre-malignant lesion.Conclusions/SignificanceThese results show that vaccination of mice against H. pylori amplifies M1 polarization of gastric macrophages, and that a similar enhanced M1 polarization is present in human H. pylori-induced atrophic gastritis.

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Malin Sundquist

DC-derived IL-18 drives Treg differentiation, murine Helicobacter pylori–specific immune tolerance, and asthma protection

Human Mucosa-Associated Invariant T Cells Accumulate in Colon Adenocarcinomas but Produce Reduced Amounts of IFN-γ

Early cellular responses to Salmonella infection: dendritic cells, monocytes, and more

TNF-α-Dependent and -Independent Maturation of Dendritic Cells and Recruited CD11cintCD11b+ Cells during Oral Salmonella Infection

Enhanced M1 Macrophage Polarization in Human Helicobacter pylori-Associated Atrophic Gastritis and in Vaccinated Mice

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