SEA possesses a different tropism for the Vβ chain of the TCR, preferentially binding to the Vβ1, 3, 10, 11 and 12 types (75). Intraperitoneal administration of SEA can reactivate MBP-induced EAE after one month of clinical remission (76). Soos et al. have shown that SEA produces new episodes of EAE when given in mice which have previously been immunized with MBP after depletion of Vβ8 cells by SEB pretreatment. As previously mentioned, the explanation relies on the types of lymphocytes that remain in place to be stimulated by SEA. This experiment revealed that it is not only Vβ8 cells that can participate in EAE pathogenesis, as was previously believed (77). To our knowledge, there has been
no study of oral administration of SEA in EAE. In any case, the variable behavior seen after administration of SEB/SEA can be explained by the affinity for certain T cells, different TCR restrictions for effector lymphocytes in different species, and differing selleckchem routes of administration. When administered parenterally, SEA acts as a major stimulant of the systemic lymphocyte compartment. Thus, staphylococcal enterotoxins have the opportunity to reactivate EAE, even in animals which have entered a remission period (78). Insulin is now recognized as the major auto-antigen in type 1 diabetes (79). As a consequence, a number of clinical trials have tested the possibility of producing oral tolerance to insulin,
in the hope of preventing or delaying the onset of the disease in non-diabetic relatives at high risk of diabetes. The Diabetes Prevention Trial–Type 1 showed that 7.5 Z-VAD-FMK cost mg of oral insulin daily did not confer a benefit when compared to placebo. In a subgroup
of this trial which included only those relatives who had tested positive on two occasions for anti-insulin autoantibodies, orally administered insulin proved to be useful in preventing the onset of diabetes, compared with placebo (80). Currently, Ureohydrolase the Pre-POINT (Primary Oral/intranasal Insulin Trial) is addressing the group of children who are at high risk of developing type 1 diabetes and who have not yet developed anti-insular autoantibodies. This trial is ongoing (81). There has been no trial in humans or animals that has tested the efficacy of SEA as an adjuvant for augmenting oral tolerance to insulin or any other peptides that function as autoantigens in type 1 diabetes. In animal models the results of SEA usage appear to be in conflict. Kawamura et al. have shown that staphylococcal enterotoxins (SEA, SEC1, SEC2, or SEC3), when injected iv into non-obese diabetic female mice at 4 and 10 weeks of age, significantly reduce the incidence of diabetes at 32 weeks compared with a saline treated group (82). The explanation, according to the authors, originates in the fact that SAs are able to stimulate a CD4+ fraction of T lymphocytes which is capable of immunoregulatory activity. Ellerman et al.