Insulin-Specific T Cells in Long-Term Diabetics

Type 1 diabetes is unusual among autoimmune diseases because diagnosis is greatly aided by laboratory tests. Levels of blood sugar and glycosylated hemoglobin are excellent measures of disease progression. The symptoms of disease are treated with insulin, which would normally be produced by the pancreatic beta cells that are destroyed in the autoimmune process. In common with other autoimmune diseases, the cause of type 1 diabetes is not known, though insulin itself has been a leading candidate autoantigen. Here, Kent and colleagues show they could find insulin-specific T lymphocytes in the lymph nodes draining the pancreas in 2 long-term diabetics, but not in 3 non-diabetic individuals or 1 recently-diagnosed diabetic. They argue against the T cells having been stimulated by therapeutic insulin because none were found in the spleen of one diabetic. They convincingly demonstrate that the T cell response is specific for the insulin peptide (residues 1-15 of the A chain) bound by host histocompatibility molecules (HLA-DR). The insulin-specific T cells were helper (CD4+) cells and, curiously, secreted a suspected tolerogenic helper type 2 cytokine (interleukin-13) and not a proinflamatory helper type 1 cytokine (interferon-gamma) in vitro. These observations strengthen the argument that long-term diabetes correlates with increased immune reactivity against
insulin.
Kent et al., Nature, May 12, 2005. 435(7039):224-8.