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Abstract
Gut-draining mesenteric lymph nodes (mLNs) are important for inducing peripheral tolerance towards food and commensal antigens by providing an optimal microenvironment for de novo generation of Foxp3+ regulatory T cells (Tregs). We previously identified microbiota-imprinted mLN stromal cells as a critical component in tolerance induction. Here we show that this imprinting process already takes place in the neonatal phase, and renders the mLN stromal cell compartment resistant to inflammatory perturbations later in life. LN transplantation and single-cell RNA-seq uncover stably imprinted expression signatures in mLN fibroblastic stromal cells. Subsetting common stromal cells across gut-draining mLNs and skin-draining LNs further refine their location-specific immunomodulatory functions, such as subset-specific expression of Aldh1a2/3. Finally, we demonstrate that mLN stromal cells shape resident dendritic cells to attain high Treg-inducing capacity in a Bmp2-dependent manner. Thus, crosstalk between mLN stromal and resident dendritic cells provides a robust regulatory mechanism for the maintenance of intestinal tolerance.
Highlights
Gut-draining mesenteric lymph nodes are important for inducing peripheral tolerance towards food and commensal antigens by providing an optimal microenvironment for de novo generation of Foxp3+ regulatory T cells (Tregs)
We previously demonstrated that mesenteric lymph nodes (mLNs) stromal cells (SCs) contribute to the high Treg-inducing properties of mLNs11
Infecting mice with Y. pseudotuberculosis resulted in the strong activation and proliferation of fibroblastic stromal cells (FSCs), in line with previous studies21,24
Summary
Gut-draining mesenteric lymph nodes (mLNs) are important for inducing peripheral tolerance towards food and commensal antigens by providing an optimal microenvironment for de novo generation of Foxp3+ regulatory T cells (Tregs). The generation of pTregs most efficiently takes place within gut-draining lymph nodes (LNs), including mesenteric LNs (mLNs)9–11 These pTregs migrate to and expand within the intestinal lamina propria, a process supported by microbiota and their metabolic products. Reciprocal LN transplantations, where only graft-derived SCs are retained in the transplanted LN16, provide valuable tools for analyzing the contribution of LN SCs to LN-specific immune responses Using this technique we recently demonstrated that LN SCs critically contribute to the high Treg induction within mLNs and stably maintain their tolerogenic properties in a skindraining environment. It is only incompletely understood which functional properties of DCs are educated by mLN SCs
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