TLR-2–Activated B Cells Suppress Helicobacter-Induced Preneoplastic Gastric Immunopathology by Inducing T Regulatory-1 Cells
Ayca Sayi,Esther Kohler,Isabella M. Toller,Richard A. Flavell,Werner Müller,Axel Roers,Anne Müller +6 more
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TLDR
It is demonstrated that the B cell/Tr-1 cell axis is essential for balancing the control of Helicobacter infection with the prevention of excessive Th1-driven gastric immunopathology, promoting gastric mucosal homeostasis on the one hand and facilitating Helicobacteria persistence on the other.Abstract:
B cells regulate autoimmune pathologies and chronic inflammatory conditions such as autoimmune encephalomyelitis and inflammatory bowel disease. The potential counterregulatory role of B cells in balancing pathogen-specific immune responses and the associated immunopathology is less well understood owing to the lack of appropriate persistent infection models. In this paper, we show that B cells have the ability to negatively regulate adaptive immune responses to bacterial pathogens. Using mouse models of infection with Helicobacter felis, a close relative of the human gastrointestinal pathogen H. pylori, we found that B cells activated by Helicobacter TLR-2 ligands induce IL-10-producing CD4(+)CD25(+) T regulatory-1 (Tr-1)-like cells in vitro and in vivo. Tr-1 conversion depends on TCR signaling and a direct T-/B-interaction through CD40/CD40L and CD80/CD28. B cell-induced Tr-1 cells acquire suppressive activity in vitro and suppress excessive gastric Helicobacter-associated immunopathology in vivo. Adoptive cotransfer of MyD88-proficient B cells and Tr-1 cells restores a normal gastric mucosal architecture in MyD88(-/-) and IL-10(-/-) mice in a manner that depends on T cellular, but not B cellular, IL-10 production. Our findings describe a novel mechanism of B cell-dependent Tr-1 cell generation and function in a clinically relevant disease model. In conclusion, we demonstrate that the B cell/Tr-1 cell axis is essential for balancing the control of Helicobacter infection with the prevention of excessive Th1-driven gastric immunopathology, promoting gastric mucosal homeostasis on the one hand and facilitating Helicobacter persistence on the other.read more
Citations
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Immune Regulatory Function of B Cells
Claudia Mauri,Anneleen Bosma +1 more
TL;DR: The factors that are important for Breg differentiation and for their effector function in both mouse and human are discussed.
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Life in the human stomach: persistence strategies of the bacterial pathogen Helicobacter pylori
TL;DR: The pathogenesis of H. pylori and the mechanisms it uses to promote persistent colonization of the gastric mucosa are discussed, with a focus on recent insights into the role of the virulence factors vacuolating cytotoxin (VacA), cytot toxin-associated gene A (CagA) and CagL.
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Integration of B cell responses through Toll-like receptors and antigen receptors
TL;DR: The importance of the integration of signalling pathways downstream of BCRs and TLRs in modulating B cell function is highlighted, focusing when possible on B cell-intrinsic roles.
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IL-10-producing regulatory B cells (B10 cells) in autoimmune disease
TL;DR: The recent discovery of an effective way to expand B10cells ex vivo opens new horizons in the potential therapeutic applications of this rare Bcell subset and discusses their potential as novel therapeutic agents in autoimmunity.
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DC-derived IL-18 drives Treg differentiation, murine Helicobacter pylori–specific immune tolerance, and asthma protection
Mathias Oertli,Malin Sundquist,Iris Hitzler,Daniela B. Engler,Isabelle C. Arnold,Sebastian Reuter,Joachim Maxeiner,Malin Hansson,Christian Taube,Marianne Quiding-Järbrink,Anne Müller +10 more
TL;DR: The results indicate that tolerogenic reprogramming of DCs ensures the persistence of H. pylori and protects against allergic asthma in a process that requires IL-18.
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Journal Article
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