Anti–endothelial cell (anti-EC) antibodies occur in several autoimmune diseases, including human IDDM, but the time course of their development and their importance in disease pathogenesis are unknown. To study such antibodies further, we investigated the BB rat model of autoimmunity. Diabetes-prone (DP) BB rats spontaneously develop autoimmune diabetes, whereas coisogenic diabetes-resistant (DR) BB rats are disease free but can be induced to become diabetic by the depletion of T-cells expressing the RT6 alloantigen. Anti-EC autoantibodies were readily detectable in both untreated DP-BB rats and RT6-depleted DR-BB rats before the onset of diabetes. Their concentration increased with time. The anti-EC antibodies in DP-BB rats were almost exclusively of the IgG2b subclass, whereas those in RT6-depleted DR-BB rats included both the IgGl/2a and the IgG2b subclasses. We also found that intravenous injections of purified immunoglobulins from RT6-depleted DR-BB rats induced abnormal pancreatic vascular leakage in mice. The preabsorption of immunoglobulins against cultured ECs abolished this activity. The pretreatment of mice with silica also abolished the ability of immunoglobulins of RT6- depleted DR-BB rats to induce pancreatic leakage, suggesting that monocytes are involved in the mechanism of anti-EC autoantibody-induced vascular leakage. We conclude that anti-EC autoantibodies are present in rat strains that are genetically predisposed to develop autoimmune diabetes. Their presence early in the disease process and their ability to induce pancreatic vascular leakage suggest that they may participate in diabetes pathogenesis.

This content is only available via PDF.