Abstract
Interactions between dendritic cells (DC) and T cells are known to involve the delivery of signals in both directions. We sought to characterize the effects on human DC of contact with different subsets of activated CD4+ T cells. The results showed that interaction with CD25(high)CD4+ regulatory T cells (Tregs) caused DC to take on very different properties than contact with naive or memory phenotype T cells. Whereas non-Tregs stimulated DC maturation, culture with Tregs produced DC with a mixed phenotype. By many criteria, Tregs inhibited DC maturation, inducing down-regulation of costimulatory molecules and T cell stimulatory activity. However, DC exposed to Tregs also showed some changes typically associated with DC maturation, namely, increased expression of CCR7 and MHC class II molecules, and gained the ability to migrate in response to the CCR7 ligand CCL19. Both soluble factors and cell-associated molecules were shown to be involved in Treg modulation of DC, with lymphocyte activation gene 3 (LAG-3) playing a predominant role in driving maturation-associated changes. The data show that Tregs induce the generation of semimature DC with the potential to migrate into lymphoid organs, suggesting a possible mechanism by which Tregs down-modulate immune responses.
Highlights
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The results showed that interaction with CD25highCD4؉ regulatory T cells (Tregs) caused dendritic cells (DC) to take on very different properties than contact with naive or memory phenotype T cells
We initially characterized the effects on DC of contact with three phenotypically defined subsets of CD4ϩ T cells: Tregs, naıve phenotype T cells, and memory phenotype T cells, each of which were isolated from the peripheral blood of healthy donors
Summary
LAG-3, lymphocyte activation gene 3; DC, dendritic cell; CD40L, CD40 ligand; poly(I:C), polyinosinic polycytidylic acid; Tregs, regulatory T cell; FoxP3, forkhead box P3. Different classes of stimuli have been shown to modulate the properties of DC One of these is infection, to which DC can respond either directly or indirectly. CD40L-CD40 interaction is the best-characterized T cellmediated DC maturation stimulus, a variety of other DC cell surface molecules possessing ligands on activated T cells have been demonstrated to deliver signals to DC. As suggested by the studies on DC “education,” the way in which interactions with T cells affect DC will depend on the properties of the specific T cells involved. In this respect, understanding how DC function is influenced by contact with regulatory T cells (Tregs) is important. The mechanisms involved in Treg modulation of DC function were investigated, and the implications of Treg-induced semimature DC are discussed
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