INSERM U986, Hôpital Cochin/St Vincent de Paul, Paris, France.
Eur J Immunol. 2010 Aug;40(8):2267-76. doi: 10.1002/eji.201040416.
NOD mice spontaneously develop insulin-dependent diabetes around 10-40 wk of age. Numerous immune gene variants contribute to the autoimmune process. However, genes that direct the autoimmune response toward β cells remain ill defined. In this study, we provide evidence that the Icos and Icosl genes contribute to the diabetes process. Protection from diabetes in ICOS(-/-) and ICOSL(-/-) NOD mice was unexpectedly associated with the development of an autoimmune disorder of the neuro-muscular system, characterized by myositis, sensory ganglionitis and, to a reduced extent, inflammatory infiltrates in the CNS. This syndrome was reproduced upon adoptive transfer of CD4(+) and CD8(+) T cells from diseased donors to naïve NOD.scid recipients. Our data further show that protection from diabetes results from defective activation of autoimmune diabetogenic effector T cells in ICOS(-/-) NOD mice, whereas acceleration of diabetes in BDC2.5 ICOS(-/-) NOD mice is induced by a dominant defect in Treg. Taken together, our findings indicate that costimulation signals play a key role in regulating immune tolerance in peripheral tissues and that the ICOS/ICOSL costimulatory pathway influences the balance between Treg and diabetogenic effector T cells.
NOD 小鼠在 10-40 周龄时会自发发展为胰岛素依赖型糖尿病。许多免疫基因变异有助于自身免疫过程。然而,指导自身免疫反应朝向β细胞的基因仍未明确。在这项研究中,我们提供了证据表明 ICOS 和 ICOSL 基因参与了糖尿病的发生过程。在 ICOS(-/-)和 ICOSL(-/-)NOD 小鼠中,对糖尿病的保护出乎意料地与神经肌肉系统自身免疫紊乱有关,其特征为肌炎、感觉神经节炎,并且在 CNS 中炎症浸润程度降低。这种综合征通过从患病供体向幼稚 NOD.scid 受体转移 CD4(+)和 CD8(+)T 细胞而重现。我们的数据进一步表明,ICOS(-/-)NOD 小鼠中自身免疫性糖尿病效应 T 细胞的激活缺陷导致对糖尿病的保护,而 BDC2.5ICOS(-/-)NOD 小鼠中糖尿病的加速是由 Treg 中的显性缺陷引起的。总之,我们的发现表明共刺激信号在调节外周组织中的免疫耐受方面发挥着关键作用,并且 ICOS/ICOSL 共刺激途径影响 Treg 和致糖尿病效应 T 细胞之间的平衡。
