C T cell culture. IFN-c production was reduced in T cells stimulated with tol-DCs plus Gram-negative enterobacteria. IL-10 was not detected. Data represent mean 6 SD of four independent experiments. Student’s t-test: *p,0.05. doi:10.1371/journal.pone.0052456.gTolerogenic Dendritic Cells Response to BacteriaFigure 8. Crohn’s disease patients’ DCs are educated towards tolerogenic phenotype. (A) Maturation associated molecules upregulation in DCs from Crohn’s disease patients are depicted as mean fluorescent intensity of expression (MFI) in mDCs and tol-DCs relative to iDCs (fold-change 25033180 expression). (B) IL-10 was measured in supernatants harvested from DCs. Concentration of IL-10 (in pg/ml) is shown as mean 6 SD (n = 6). (C) Proliferative response and IFN-c production induced by tol-DCs from patients were evaluated in allogeneic T cell culture. Both, proliferation and IFN-c production were reduced in T cells stimulated with tol-DCs compared to mDCs (data represent mean6 SD (n = 4)). IFN-c production was normalized relative to mDCs (100 ) for each independent experiment (n = 3). Student’s t-test: *p,0.05. doi:10.1371/journal.pone.0052456.gproliferate, even after further stimulation with fully mature DCs from the same donor. Interestingly, we observed the same pattern of inhibition when TT was used as specific antigen. While TT induces strong IFN-c secretion following interaction with mDCs [42], in our study tol-DCs completely inhibited such Thpolarization. Increasing evidence suggests that mature DCs that lack the ability to deliver signal 3 preferentially promote the differentiation of CD4+ T cells into IL-10 producing T cells (reviewed by Joffre O et al. [22]). Interestingly, our results reveal that tol-DCs have the capacity to tolerize memory T cells, whichTolerogenic Dendritic Cells Response to Bacteriaare generally viewed as very difficult cell type to tolerize. However, we failed to generate de novo Treg (Foxp3 positive) from purified ?naive CD4+ T lymphocyte when cultured with tol-DCs. An get Hypericin important concern to be considered when designing DCbased immunotherapy protocols is their stability. In this regard, it is important to point out that tol-DCs maintained their tolerogenic properties (particularly relevant for IL-10 production) once the immunosuppressive agent was removed from the culture and the DCs were further stimulated with LPS or CD40L. It is important to stress that the tolerogenic effects of dexamethasone were evident after adding whole microorganisms (Gram-negative enterobacteria), taking into account the presence of multiple PAMPs capable of stimulating DCs by various pathways [43,44]. Interestingly, it has been recently described how glucocorticoids alter DC maturation in response to TLR7 or TLR8 through a mechanism involving GR transcriptional activity [45]. These results indicate that the response to commensal bacteria is directly related to any PD168393 site pre-conditioning DCs receive, underscoring the importance of the interaction between DCs and their surrounding environment [46]. Although pre-conditioning might entail some risk of infection in treated patients, it may also constitute a critical component in the treatment of immunemediated inflammatory disorders, particularly of those in which an inappropriate response to commensal bacteria is believed to play a role, such as inflammatory bowel diseases. The clinical relevance of such interaction between enterobacteria with clinical-grade tolDCs would take place in the inflamed.C T cell culture. IFN-c production was reduced in T cells stimulated with tol-DCs plus Gram-negative enterobacteria. IL-10 was not detected. Data represent mean 6 SD of four independent experiments. Student’s t-test: *p,0.05. doi:10.1371/journal.pone.0052456.gTolerogenic Dendritic Cells Response to BacteriaFigure 8. Crohn’s disease patients’ DCs are educated towards tolerogenic phenotype. (A) Maturation associated molecules upregulation in DCs from Crohn’s disease patients are depicted as mean fluorescent intensity of expression (MFI) in mDCs and tol-DCs relative to iDCs (fold-change 25033180 expression). (B) IL-10 was measured in supernatants harvested from DCs. Concentration of IL-10 (in pg/ml) is shown as mean 6 SD (n = 6). (C) Proliferative response and IFN-c production induced by tol-DCs from patients were evaluated in allogeneic T cell culture. Both, proliferation and IFN-c production were reduced in T cells stimulated with tol-DCs compared to mDCs (data represent mean6 SD (n = 4)). IFN-c production was normalized relative to mDCs (100 ) for each independent experiment (n = 3). Student’s t-test: *p,0.05. doi:10.1371/journal.pone.0052456.gproliferate, even after further stimulation with fully mature DCs from the same donor. Interestingly, we observed the same pattern of inhibition when TT was used as specific antigen. While TT induces strong IFN-c secretion following interaction with mDCs [42], in our study tol-DCs completely inhibited such Thpolarization. Increasing evidence suggests that mature DCs that lack the ability to deliver signal 3 preferentially promote the differentiation of CD4+ T cells into IL-10 producing T cells (reviewed by Joffre O et al. [22]). Interestingly, our results reveal that tol-DCs have the capacity to tolerize memory T cells, whichTolerogenic Dendritic Cells Response to Bacteriaare generally viewed as very difficult cell type to tolerize. However, we failed to generate de novo Treg (Foxp3 positive) from purified ?naive CD4+ T lymphocyte when cultured with tol-DCs. An important concern to be considered when designing DCbased immunotherapy protocols is their stability. In this regard, it is important to point out that tol-DCs maintained their tolerogenic properties (particularly relevant for IL-10 production) once the immunosuppressive agent was removed from the culture and the DCs were further stimulated with LPS or CD40L. It is important to stress that the tolerogenic effects of dexamethasone were evident after adding whole microorganisms (Gram-negative enterobacteria), taking into account the presence of multiple PAMPs capable of stimulating DCs by various pathways [43,44]. Interestingly, it has been recently described how glucocorticoids alter DC maturation in response to TLR7 or TLR8 through a mechanism involving GR transcriptional activity [45]. These results indicate that the response to commensal bacteria is directly related to any pre-conditioning DCs receive, underscoring the importance of the interaction between DCs and their surrounding environment [46]. Although pre-conditioning might entail some risk of infection in treated patients, it may also constitute a critical component in the treatment of immunemediated inflammatory disorders, particularly of those in which an inappropriate response to commensal bacteria is believed to play a role, such as inflammatory bowel diseases. The clinical relevance of such interaction between enterobacteria with clinical-grade tolDCs would take place in the inflamed.