Hagenow Kristin, Gelderman Kyra A, Hultqvist Malin, Merky Patrick, Bäcklund Johan, Frey Oliver, Kamradt Thomas, Holmdahl Rikard
Medical Inflammation Research, Lund University and Karolinska Institute, Stockholm, Sweden.
J Immunol. 2009 Jul 15;183(2):874-81. doi: 10.4049/jimmunol.0900966. Epub 2009 Jun 24.
Reactive oxygen species (ROS) are important in the immune defense against invading pathogens, but they are also key molecules in the regulation of inflammatory reactions. Low levels of ROS production due to a polymorphism in the neutrophil cytosolic factor 1 (Ncf1) gene are associated with autoimmunity and arthritis severity in mouse models induced with adjuvant. We established an adjuvant-free arthritis model in which disease is induced by injection of the autoantigen collagen type II (CII) and depends on IL-5-producing T cells and eosinophils. In addition, the transgenic expression of mutated mouse CII allowed us to investigate an autoreactive immune response to an autologous Ag and by that natural tolerance mechanism. We show that a deficient ROS production, due to a spontaneous mutation in Ncf1, leads to increased autoantibody production and expansion of IL-33R-expressing T cells, impaired T cell tolerance toward tissue-specific CII, and severe arthritis in this unique model without disturbing adjuvant effects. These results demonstrate that the insufficient production of ROS promotes the breakdown of immune tolerance and development of autoimmune and adjuvant-free arthritis through an IL-5- and IL33R-dependent T cell activation pathway.
活性氧(ROS)在针对入侵病原体的免疫防御中很重要,但它们也是调节炎症反应的关键分子。由于中性粒细胞胞质因子1(Ncf1)基因多态性导致的低水平ROS产生与佐剂诱导的小鼠模型中的自身免疫和关节炎严重程度相关。我们建立了一种无佐剂关节炎模型,其中疾病由注射自身抗原II型胶原蛋白(CII)诱导,并且依赖于产生IL-5的T细胞和嗜酸性粒细胞。此外,突变小鼠CII的转基因表达使我们能够研究对自身抗原的自身反应性免疫反应以及天然耐受机制。我们表明,由于Ncf1中的自发突变导致的ROS产生缺陷,会导致自身抗体产生增加和表达IL-33R的T细胞扩增,损害T细胞对组织特异性CII的耐受性,并在这个独特的模型中导致严重关节炎,而不会干扰佐剂效应。这些结果表明,ROS产生不足通过IL-5和IL33R依赖的T细胞激活途径促进免疫耐受的破坏以及自身免疫性和无佐剂关节炎的发展。
