Breakdown and Repair of Peripheral Immune Tolerance in Type 1 Diabetes

Abstract

Failures in peripheral immune tolerance mechanisms create a permissive environment for autoimmune diabetes initiation and disease progression. Biomarker analyses provide tools that allow recognition of this loss of tolerance, reflecting a serial acquisition of pathogenic characteristics causally linked to islet β-cell dysfunction and death. Autoimmune effector cell activation and expansion, ineffective immune regulation, and tissue response to injury during active disease each represent challenges to homeostasis; however, they also represent targets for therapeutic intervention, with the potential for restoration of tolerance. Limited success in recent clinical trials demonstrates that tolerance in type 1 diabetes (T1D) is achievable, but currently occurs in few subjects and is not durable in most. Combining therapeutic agents to rebuild multiple immune components to restore tolerance, particularly addressing both effector and regulatory T-cell dysfunction, is needed.