Abstract
Intestinal regulatory T cells (Tregs) are fundamental in peripheral tolerance toward commensals and food‐borne antigens. Accordingly, gut‐draining mesenteric lymph nodes (mLNs) represent a site of efficient peripheral de novo Treg induction when compared to skin‐draining peripheral LNs (pLNs), and we had recently shown that LN stromal cells substantially contribute to this process. Here, we aimed to unravel the underlying molecular mechanisms and generated immortalized fibroblastic reticular cell lines (iFRCs) from mLNs and pLNs, allowing unlimited investigation of this rare stromal cell subset. In line with our previous findings, mLN‐iFRCs showed a higher Treg‐inducing capacity when compared to pLN‐iFRCs. RNA‐seq analysis focusing on secreted molecules revealed a more tolerogenic phenotype of mLN‐ as compared to pLN‐iFRCs. Remarkably, mLN‐iFRCs produced substantial numbers of microvesicles (MVs) that carried elevated levels of TGF‐β when compared to pLN‐iFRC‐derived MVs, and these novel players of intercellular communication were shown to be responsible for the tolerogenic properties of mLN‐iFRCs. Thus, stromal cells originating from mLNs contribute to peripheral tolerance by fostering de novo Treg induction using TGF‐β‐carrying MVs. This finding provides novel insights into the subcellular/molecular mechanisms of de novo Treg induction and might serve as promising tool for future therapeutic applications to treat inflammatory disorders.
Highlights
The gastrointestinal tract harbors the largest number of immune cells throughout the body, and constrains invading pathogensC 2017 The Authors
In order to investigate the direct impact of mesenteric lymph nodes · MV (mLN)- and peripheral lymph nodes · Treg (pLN)-fibroblastic reticular cells · immortalized fibroblastic reticular cell lines (iFRCs) (FRC) on de novo Treg induction, a co-culture system was established using naıve CD4+ T cells and iFRCs in the growtharrested state
Co-cultures of naıve CD4+ T cells with mLN-iFRCs resulted in a significantly increased frequency of de novo induced Foxp3+ Tregs when compared to co-cultures with pLN-iFRCs, in line with the previously described differential Treg-inducing capacity of ex vivo isolated stromal cells from mLNs and pLNs [12]
Summary
The gastrointestinal tract harbors the largest number of immune cells throughout the body, and constrains invading pathogensC 2017 The Authors. Results from our previous study suggest that de novo Treg induction is independent of the antigen administration route [12], but rather determined by intrinsic properties of gut-draining LNs, including migratory CD103+ tolerogenic dendritic cells (DCs) [9, 10, 13] and resident fibroblastic reticular cells (FRCs) located in the T-cell zone of LNs [12, 14,15,16]. LN transplantation experiments revealed that the unique properties of mLNs are stably imprinted within the stromal cell compartment, as efficient induction of both Foxp and gut-homing molecules was maintained after transplantation of mLN into a non-tolerogenic skin-draining site [12, 15]
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