Modulation of diabetes with gonadotropin-releasing hormone antagonists in the nonobese mouse model of autoimmune diabetes.

The nonobese mouse model of autoimmune diabetes (NOD mouse) exhibits a strain-dependent preponderance of disease in females. Castration of male NOD mice leads to an increased incidence of diabetes, suggesting that testosterone directly modulates the expression of diabetes in the NOD mouse. However, castration also modulates hypothalamic and pituitary hormone production via removal of the negative feedback effects of testosterone. One hypothalamic hormone with immunomodulatory properties whose expression is increased by castration is GnRH. To test whether the increased incidence of diabetes in castrated male NOD mice is related to an increase in GnRH activity, we treated castrated male NOD mice with Antide, a GnRH receptor antagonist, to determine the effect on the incidence and timing of onset of diabetes. The prevalence of diabetes at 40 wk of age in male NOD mice was 50% in sham-operated mice, compared with an 83% prevalence in castrated males. Antide administration prevented the increased incidence of diabetes in the castrated male mice. Antide reduced total serum IgG levels, IL-6 cytokine expression in cultured splenocytes, and the lymphocytic infiltration of islets. GnRH administration exerted reciprocal effects, leading to earlier timing of onset of diabetes and increases in serum total IgG levels. We conclude that GnRH modulates the expression of diabetes in the NOD mouse independently of gonadal steroids.

Administration of antisense oligonucleotides to Galpha(Q/11) reduces the severity of murine lupus.

Our principle hypothesis is that the hypothalamic hormone, gonadotropin-releasing hormone (GnRH), is an immunostimulatory hormone and plays a pivotal role in the gender differences in immunity and/or autoimmunity. As a general rule, females display heightened immune responses and heightened endocrinological responsiveness to GnRH compared to males. We have previously demonstrated that GnRH receptor antagonists are effective in ameliorating murine lupus and that GnRH receptor agonists exacerbate murine lupus. GnRH exerts its actions via stimulatory G proteins, specifically via Galpha(s) and the homologous G proteins Galpha(q) and Galpha(11) (referred to together as Galpha(q/11)). We have previously demonstrated that females express higher levels of Galpha(q/11) mRNA and protein compared to males. We hypothesized that antisense inhibition of these specific G proteins would lead to a reduction in inflammatory cytokines and to an amelioration of disease in a mouse model of lupus. We randomized gonadectomized female (NZB x NZW) F1 hybrid mice to treatment with antisense oligonucleotides to Galpha(q/11) or to missense oligonucleotides. Administration of antisense oligonucleotides to Galpha(q/11) led to significant reductions in autoantibody levels, serum IgG levels, hematuria, and proteinuria compared to missense oligos. A trend toward prolonged survival was also noted. In vitro co-culture experiments demonstrated that antisense to Galpha(q/11) significantly inhibited IL-6 production compared to control.