Expression of the co-stimulator molecule B7-1 in pancreatic beta-cells accelerates diabetes in the NOD mouse.

B7-1 is a co-stimulatory molecule that signals T-cells that recognize antigen to proliferate and differentiate into effector T-cells. The same cell must present antigen and express co-stimulatory molecules, such as B7-1, to activate naive T-cells. Thus, tissues that do not express co-stimulatory molecules would not be expected to induce immune responses, while expression of a co-stimulator on tissue cells may convert them into effective antigen-presenting cells and induce autoimmunity. To test this, transgenic mice have been generated that express B7-1 on the beta-cells of the pancreatic islets of Langerhans. On a B6 genetic background, B7-1 expression on beta-cells does not predispose to diabetes. B6 mice are resistant to diabetes. However, when B7-1 is expressed on the beta-cells of B6 mice backcrossed once to the genetically susceptible NOD strain, the onset of diabetes is accelerated and the autoimmune attack intensified. This illustrates that B7-1 is a very potent co-stimulatory molecule in vivo and that its presence on the surface of tissue cells can potentiate the autoimmune process.

Self peptides isolated from MHC glycoproteins of non-obese diabetic mice.

The non-obese diabetic (NOD) mouse spontaneously develops an insulin-dependent diabetes mellitus that resembles human type I diabetes. This disease can be transferred by purified T cells or cloned T cell lines, implicating an autoimmune T cell attack on the pancreatic beta cells of the islets of Langerhans. As all T cell responses involve recognition of peptides bound to MHC molecules displayed at the cell surface, we have examined self peptides binding to the MHC molecules on spleen cells of the NOD mouse. Peptides eluted from the MHC class I molecule Kd have sequences that conform to known motifs for peptides binding this molecule in other strains of mice. The NOD mouse expresses the unique MHC class II molecule I-Ag7. Peptides eluted from I-Ag7 have sequences that implicate an acidic residue in the C terminus of the peptide as important for binding. The role of this residue in binding has been confirmed by direct peptide-binding analysis. This C-terminal acidic amino acid may interact with an arginine residue in the MHC class II alpha-chain that is exposed when beta-chain residue 57 is mutated to serine, or to the unique beta-chain residue histidine 56. These data may provide valuable insights into the nature of autoantigenic peptides presented by NOD mouse MHC molecules by defining the nature of I-Ag7-peptide binding.