Thymic self-antigens for the design of a negative/tolerogenic self-vaccination against type 1 diabetes.

摘要

Before being able to react against infectious nonself-antigens, the immune system has to be educated in the recognition and tolerance of neuroendocrine proteins and this critical process takes place only in the thymus. The development of the autoimmune diabetogenic response results from a thymus dysfunction in programing central self-tolerance to pancreatic insulin-secreting islet beta cells, leading to the breakdown of immune homeostasis with an enrichment of islet beta-cell reactive effector T cells and a deficiency of beta-cell specific natural regulatory T cells (nTregs) in the peripheral T-lymphocyte repertoire. Insulin-like growth factor 2 (IGF-2) is the dominant member of the insulin family expressed during fetal life by the thymic epithelium under the control of the autoimmune regulator (AIRE) gene/protein. The very low degree of insulin gene transcription in normal murine and human thymus explains why the insulin protein is poorly tolerogenic as demonstrated in many studies, including the failure of all clinical trials that have attempted immune tolerance to islet beta cells via various methods of insulin administration. On the basis of the close homology and crosstolerance between insulin, the primary T1D autoantigen, and IGF-2, the dominant self-antigen of the insulin family, a novel type of vaccination, so-called 'negative/tolerogenic self-vaccination', is currently being developed for the prevention and cure of T1D. If this approach were found to be effective for reprograming immunological tolerance in T1D, it could pave the way for the design of other self-vaccines against autoimmune endocrine diseases, as well as other organ-specific autoimmune diseases.