Abstract
Tolerogenic vaccinations using beta-cell antigens are attractive for type 1 diabetes prevention, but clinical trials have been disappointing. This is probably due to the late timing of intervention, when multiple auto-antibodies are already present. We therefore devised a strategy to introduce the initiating antigen preproinsulin (PPI) during neonatal life, when autoimmunity is still silent and central tolerance mechanisms, which remain therapeutically unexploited, are more active. This strategy employs an oral administration of PPI-Fc, i.e. PPI fused with an IgG Fc to bind the intestinal neonatal Fc receptor (FcRn) that physiologically delivers maternal antibodies to the offspring during breastfeeding. Neonatal oral PPI-Fc vaccination did not prevent diabetes development in PPI T-cell receptor-transgenic G9C8.NOD mice. However, PPI-Fc was efficiently transferred through the intestinal epithelium in an Fc- and FcRn-dependent manner, was taken up by antigen presenting cells, and reached the spleen and thymus. Although not statistically significant, neonatal oral PPI-Fc vaccination delayed diabetes onset in polyclonal Ins2 -/-.NOD mice that spontaneously develop accelerated diabetes. Thus, this strategy shows promise in terms of systemic and thymic antigen delivery via the intestinal FcRn pathway, but the current PPI-Fc formulation/regimen requires further improvements to achieve diabetes prevention.
Highlights
Type 1 diabetes (T1D) is an autoimmune disease mediated by autoreactive T cells that recognize antigens of the insulin-producing pancreatic b cells, leading to their destruction [1,2,3]
We previously demonstrated that intravenous vaccination of pregnant G9C8.non-obese diabetic (NOD) mice with a single 100-μg dose of PPI-Fc protected the offspring from subsequent diabetes development [39]
We tested whether a similar protection was afforded by oral PPI-Fc vaccination directly in newborn mice
Summary
Type 1 diabetes (T1D) is an autoimmune disease mediated by autoreactive T cells that recognize antigens of the insulin-producing pancreatic b cells, leading to their destruction [1,2,3]. B-cell antigen-specific therapies are attractive in light of their selectivity and safety [4] Such therapies are administered in the form of vaccines comprising b-cell antigens and formulated to achieve immune tolerance. A trial employing intranasal insulin administration to halt autoimmune b-cell destruction in newonset T1D patients with slowly evolving disease did not result in significant b-cell preservation, despite evidence that insulin-specific immune tolerance was successfully induced [9]. These results suggest that earlier interventions may be needed, before significant b-cell loss and prior to autoimmune progression and antigen spreading
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