Abstract
The balance between the responsiveness of the intestinal immune system and the gut environment is fundamental for the maintenance of intestinal homeostasis, which is required for an adequate recognition of entering antigens. The disruption of this homeostasis by exaggerated immune response to harmless antigens can lead to the development of intestinal disorders such as inflammatory bowel disease. Stromal cells are sessile non-hematopoietic cells that build the backbone of the lymph node, an important site for the immune response induction, but also contribute to immune response and tolerance induction. However, the knowledge about the role of stromal cells in the regulation of inflammatory responses is still limited. Therefore, in this study we analyzed the influence of stromal cells on the development of chronic intestinal inflammation. Here, we show that intestinal inflammation alters the immune activation of the mesenteric lymph node-derived stromal cells. Podoplanin+ and CD21/35+ stromal cells showed increased expression of MHC class II molecules, but CD106 expression on CD21/35+ cells was reduced. Stromal cells secreted cytokines and chemokines such as CCL7 and CXCL16 influenced the gut-homing phenotype and proliferation of CD4+ and CD8+ T cells. Furthermore, stromal cells of peripheral lymph nodes transplanted into the mesentery attenuated colitis severity in B6-Il10-/- mice. The reduced colitis severity in these mice was associated with increased expression of IL4 and distinct activation pattern of stromal cells derived from transplanted peripheral lymph nodes. Altogether, our results demonstrate that lymph node stromal cells impact development of chronic colitis via T cell induction. Moreover, lymph node stromal cells from different draining area due to neonatally imprinted processes distinctly regulate the induction of immune responses.
Highlights
The mucosal surface of the gut is the first contact and recognition site for many antigens (Ag)
CD21/35+ cells showed reduced expression of CD106 as well as CD54 (Figure 1D). These results showed that intestinal inflammation in B6-Il10-/- mice affects the whole intestinal tract including mesenteric lymph nodes (mLN) and especially mLN stromal cells
In the past 10 years, lymph node stromal cells came into focus for immunologists, as these cells were shown to influence immune response and tolerance induction
Summary
The mucosal surface of the gut is the first contact and recognition site for many antigens (Ag). The intestinal homeostasis is required for an efficient decision whether entering Ag is harmless, such as food, or potentially pathogenic. To ensure the maintenance of the intestinal homeostasis, the host protective immunity and the gut microbiota have to be in balance. Disruption of this balance by exaggerated immune reaction to harmless antigens can lead to intestinal disorders such as inflammatory bowel disease (IBD). IBD is a chronic inflammatory disease of the gastrointestinal tract that encompasses Crohn’s disease and ulcerative colitis. Histopathological hallmarks of colitis in Il10-/- mice are inflammatory cell infiltration of the lamina propria and submucosa, epithelial hyperplasia, mucin depletion, crypt abscesses, ulceration, and thickening of the intestinal wall [2]. Colitis development in mice carrying mutation in Il10 gene starts shortly after weaning and is microbiota dependent, as germ-free mice do not develop any signs of inflammation [3, 4]
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