Boitard C, Bendelac A, Richard M F, Carnaud C, Bach J F
Institut National de la Sante et de la Recherche Medicale, Paris, France.
Proc Natl Acad Sci U S A. 1988 Dec;85(24):9719-23. doi: 10.1073/pnas.85.24.9719.
The nonobese diabetic (NOD) mouse has been developed as a model for insulin-dependent diabetes. One gene required for the development of diabetes is associated with the major histocompatibility complex. This gene possibly could be linked to class II genes, which show a unique pattern in NOD mice. To evaluate the role of the I-A class II antigen expressed in NOD mice, we studied the effect of anti-I-A monoclonal antibodies on disease onset in vivo. Long-term treatment with anti-class II IgG2a antibodies specific for NOD I-A antigen prevented the spontaneous development of diabetes, as opposed to control antibodies shown not to react with NOD I-A antigen. Anti-class II antibodies apparently elicited active immune suppression, requiring a fully immunocompetent host, rather than passive blockade of class II antigen. Treatment with anti-class II antibody effectively prevented the adoptive transfer of diabetes produced by splenocytes from diabetic NOD mice into newborn mice but failed to prevent adoptive transfer into irradiated adult NOD recipients. Direct evidence for the induction of suppressor cells was obtained from the passive transfer of spleen cells from anti-class II antibody-treated NOD donors. The injection of anti-class II antibody-treated spleen cells collected from NOD donors prevented the development of diabetes, which normally follows transfer of diabetogenic spleen cells into irradiated 8-week-old male NOD recipients. Depletion experiments indicate that CD4+ cells are responsible for anti-class II-induced protection transferred by spleen cells.
非肥胖型糖尿病(NOD)小鼠已被开发为胰岛素依赖型糖尿病的模型。糖尿病发生所必需的一个基因与主要组织相容性复合体相关。该基因可能与II类基因有关,II类基因在NOD小鼠中呈现出独特的模式。为了评估NOD小鼠中表达的I-A II类抗原的作用,我们研究了抗I-A单克隆抗体对体内疾病发作的影响。用针对NOD I-A抗原的抗II类IgG2a抗体进行长期治疗可预防糖尿病的自发发展,这与显示不与NOD I-A抗原反应的对照抗体相反。抗II类抗体显然引发了主动免疫抑制,这需要一个具有完全免疫能力的宿主,而不是对II类抗原的被动阻断。用抗II类抗体治疗可有效预防糖尿病NOD小鼠的脾细胞将糖尿病传递给新生小鼠,但未能预防传递给经辐射的成年NOD受体。从抗II类抗体处理的NOD供体的脾细胞的被动转移获得了抑制细胞诱导的直接证据。注射从NOD供体收集的经抗II类抗体处理的脾细胞可预防糖尿病的发展,糖尿病通常在致糖尿病脾细胞转移到经辐射的8周龄雄性NOD受体后发生。耗竭实验表明,CD4+细胞负责脾细胞传递的抗II类诱导的保护作用。