Abstract
The gastrointestinal tract is colonized by trillions of commensal microorganisms that collectively form the microbiome and make essential contributions to organism homeostasis. The intestinal immune system must tolerate these beneficial commensals, whilst preventing pathogenic organisms from systemic spread. Humoral immunity plays a key role in this process, with large quantities of immunoglobulin (Ig)A secreted into the lumen on a daily basis, regulating the microbiome and preventing bacteria from encroaching on the epithelium. However, there is an increasing appreciation of the role of IgG antibodies in intestinal immunity, including beneficial effects in neonatal immune development, pathogen and tumour resistance, but also of pathological effects in driving chronic inflammation in inflammatory bowel disease (IBD). These antibody isotypes differ in effector function, with IgG exhibiting more proinflammatory capabilities compared with IgA. Therefore, the process that leads to the generation of different antibody isotypes, class‐switch recombination (CSR), requires careful regulation and is orchestrated by the immunological cues generated by the prevalent local challenge. In general, an initiating signal such as CD40 ligation on B cells leads to the induction of activation‐induced cytidine deaminase (AID), but a second cytokine‐mediated signal determines which Ig heavy chain is expressed. Whilst the cytokines driving intestinal IgA responses are well‐studied, there is less clarity on how IgG responses are generated in the intestine, and how these cues might become dysfunctional in IBD. Here, we review the key mechanisms regulating class switching to IgA vs IgG in the intestine, processes that could be therapeutically manipulated in infection and IBD.
Highlights
Humoral immunity plays a critical role in the gastrointestinal tract, an organ colonized by trillions of commensal microorganisms, collectively known as the microbiome
The site of B cell expansion and IgG isotype switching was found to be not the Peyer's patches or the mesenteric lymph nodes, but the spleen, which accumulated more Fas+GL-7+ germinal centre B cells and IgG+ B cells following C albicans colonization.[193]. This suggest that controlled movement of gut-resident antigens and/ or B cells to extraintestinal lymphoid tissues can educate extraintestinal humoral immunity and induce systemic mucosal-educated IgG antibodies with targeted specificity for gut fungi, in a similar manner has been reported for IgA gut-educated antibodies.198-200 Depletion of intestinal CXC3R1+ MNPs in mice disrupts systemic anti-C albicans IgG and polymorphisms in the coding region of CXC3R1 in humans have been associated with increased antifungal systemic IgG in Crohn's disease (CD) patients.[201]
Local IgG-commensal immune complexes may stimulate mononuclear phagocytes to provide IgG plasma cell niche factors, as myeloid cells have been well-described as plasma cell niche participants in the bone marrow, via surface CD80/86 expression and cytokines such as IL-6.213 Single-cell transcriptomic studies have identified cellular modules associated with IgG plasma niches in CD patients refractory to anti-tumour necrosis factor (TNF) therapy.[158]
Summary
Humoral immunity plays a critical role in the gastrointestinal tract, an organ colonized by trillions of commensal microorganisms, collectively known as the microbiome.
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