Furthermore, LCMV infection in vivo or LCMV-infected DCs in vitro rendered, via TLR2, CD4+CD25+ Tregs capable of diminishing T1D. We identify novel mechanisms by which TLR2 promotes immunoregulation and controls autoimmune diabetes in naïve or infected hosts. This work should help understand T1D etiology and develop novel immune-based therapeutic
interventions. Type 1 diabetes (T1D) is a genetic disease resulting in the destruction of insulin-producing β cells by autoreactive T cells in the pancreatic islets of Langerhans IBET762 1. The importance of additional environmental factors such as infections in the development of this disease has long been reported, but to date whether and how these might trigger or prevent T1D is not understood 2. It has been proposed that the inflammatory events induced upon anti-infectious immunity enable enhanced presentation of β-cell antigens to autoreactive T cells. Pro-inflammatory https://www.selleckchem.com/products/pirfenidone.html cytokines cause the up-regulation of class I MHC molecules on β cells, and may thereby “unmask” them for recognition by CD8+ T cells 3. In addition, concomitant damage to β cells and activation of APCs by the infection may promote the presentation of β-cell antigens to CD8+ T cells. This has notably been demonstrated in NOD mice using Coxsackievirus B4 4, or in RIP-LCMV mice, which transgenically
express lymphocytic choriomeningitis virus (LCMV) antigens on their β cells and develop autoimmune diabetes following LCMV infection 5–7. Inflammatory signals not only promote DC and T-cell activation but might also directly cause β-cell destruction 8–10, therefore strongly contributing to T1D development. On the other hand, studies in humans and mice suggest that infections and inflammation might play a protective role in T1D; notably, disease can be prevented in
NOD mice by infection with a number of viruses 2. Antiviral immunity may increase resistance to diabetogenic infections or “distract” the immune system from their detrimental effect 11. In addition, Nitroxoline as we reported recently 12, viral infections may shape the immune system such that diabetogenic T cells are impaired or kept under control by immunoregulatory mechanisms. We found that viral infection triggered the expansion of invigorated CD4+CD25+ Tregs that produced TGF-β and protected from autoimmune diabetes by synergizing with programmed death-ligand 1 (PD-L1). These findings indicated a beneficial role of virally induced inflammation in T1D. A number of studies in mice have underscored the capacity of pro-inflammatory agents to prevent rather than induce T1D when intervening in the absence of β-cell damage and autoantigen 13. TLRs are usually referred to as “danger-sensing” molecules that play a central part in triggering inflammation and immunity in response to infection 14.