Activated DCs present antigens normally not presented via MHC molecules under non-inflammatory conditions, e.g. in the absence of infection. This might notably be the case for self-antigens released in the inflammatory milieu physiologically or upon immune-mediated tissue damage. A possible candidate in this regard is HSP60, which can enhance the function of CD4+CD25+ Tregs directly 22, but whose immunodominant peptide p277 bears tolerogenic properties in T1D, such that it is now evaluated in clinical studies to treat this disease 47, 48. As discussed above, endogenous molecules like HSP60 may thus be released during viral infection and confer CD4+CD25+ Treg enhancement directly
via TLR2, but also indirectly via antigenic presentation by DCs. In addition, presentation of other self-antigens Selleckchem CT99021 by DCs under inflammatory conditions might promote the recruitment of FK506 research buy diabetogenic CD8+ T cells in the vicinity of DCs and their subsequent impairment by these cells. Such a phenomenon could occur for example through the PD-L1/programmed death-1 pathway, as suggested by our previous study 12. In this regard, our present results and data not shown indicate that lymphoid cells stimulated through TLR2 in vitro or in vivo acquire high PD-L1 expression. In sum, it is possible that the contribution
of DCs in TLR2-mediated prevention of T1D is to promote Treg function while curbing autoreactive responses. A promising alternative to the therapeutic induction or enhancement of Tregs in vivo to treat
T1D is their expansion in vitro for cell-based therapy. Our results suggest that stimulation via TLR2 might be well-suited for this purpose. Strategies exist to grow human CD4+CD25+ Tregs in large numbers in culture 49, and effort is currently undertaken to develop this approach in clinical trials 50. A number of strategies consist of expanding Tregs polyclonally through stimulation via the TCR, along with co-stimulation (e.g. anti-CD3 and anti-CD28). While such expanded Tregs exhibit good preventive capacity in autoimmune diabetes, they seem to show rather limited efficacy in the reversion (as opposed to prevention) of new-onset disease. This may be due in part to their non-antigen-specific nature, but also notably to the inability of TCR-restricted Aurora Kinase stimulation to augment their suppressive function. Our results indicate that stimulation through TLR2 could be used as a means to not only increase the number of CD4+CD25+ Tregs in vitro, but also ameliorate their in vivo tolerogenic property in T1D. We identify here a mechanism by which innate immunity, namely TLR2 stimulation, promotes immunoregulation and controls autoimmune processes in T1D. Therefore, it appears that similar phenomena account for both development and prevention of autoimmune diabetes. This suggests that the recurring occurrence of infectious events during early life might promote autoimmunity but will also drive the immune system to build increased immunoregulatory force.