Nabozny G H, Baisch J M, Cheng S, Cosgrove D, Griffiths M M, Luthra H S, David C S
Department of Immunology, Mayo Medical School, Rochester, Minnesota 55905, USA.
J Exp Med. 1996 Jan 1;183(1):27-37. doi: 10.1084/jem.183.1.27.
Genetic studies have indicated that susceptibility to rheumatoid arthritis (RA) maps to the HLA-DR locus of the major histocompatibility complex. Strong linkage disequilibrium between certain HLA-DQ genes and HLA-DR genes associated with RA, however, suggests that HLA-DQ molecules may also play a role in RA susceptibility. To examine the role of HLA-DQ molecules in arthritis, we generated transgenic mice expressing the DQA10301 and DQB10302 genes from an RA predisposing haplotype (DQ8/DR4Dw4). The transgenes were introduced into mouse class II-deficient H-2Ab0 mice, and their susceptibility to experimental collagen-induced arthritis was evaluated. The HLA-DQ8+,H-2Ab0 mice displayed good expression of the DQ8 molecule, while no surface expression of endogenous murine class II molecules could be detected. The DQ8 molecule also induced the selection of CD4+ T cells expressing a normal repertoire of V beta T cell receptors. Immunization of HLA-DQ8+,H-2Ab0 mice with bovine type II collagen (CII) induced a strong antibody response that was cross-reactive to homologous mouse CII. Also, in vitro proliferative responses against bovine CII, which were blocked in the presence of an antibody specific for HLA-DQ and mouse CD4, were detected. Finally, a severe polyarthritis developed in a majority of HLA-DQ8+,H-2Ab0 mice, which was indistinguishable from the disease observed in arthritis susceptible B10.T(6R) (H-2Aq) controls. In contrast, HLA-DQ8-,H-2Ab0 fullsibs did not generate CII antibody and were completely resistant to arthritis. Therefore, these results strongly suggest that HLA-DQ8 molecules contribute to genetic susceptibility to arthritis and also establish a novel animal model for the study of human arthritis.
遗传学研究表明,类风湿关节炎(RA)的易感性定位于主要组织相容性复合体的HLA - DR基因座。然而,某些与RA相关的HLA - DQ基因和HLA - DR基因之间存在强连锁不平衡,这表明HLA - DQ分子可能在RA易感性中也起作用。为了研究HLA - DQ分子在关节炎中的作用,我们构建了表达来自RA易感单倍型(DQ8/DR4Dw4)的DQA10301和DQB10302基因的转基因小鼠。将转基因导入II类缺陷的小鼠H - 2Ab0中,并评估它们对实验性胶原诱导性关节炎的易感性。HLA - DQ8 + ,H - 2Ab0小鼠显示出DQ8分子的良好表达,而未检测到内源性小鼠II类分子的表面表达。DQ8分子还诱导了表达正常VβT细胞受体库的CD4 + T细胞的选择。用牛II型胶原(CII)免疫HLA - DQ8 + ,H - 2Ab0小鼠诱导了强烈的抗体反应,该反应与同源小鼠CII具有交叉反应性。此外,检测到针对牛CII的体外增殖反应,在存在针对HLA - DQ和小鼠CD4的特异性抗体时该反应被阻断。最后,大多数HLA - DQ8 + ,H - 2Ab0小鼠发生了严重的多关节炎,这与在关节炎易感的B10.T(6R)(H - 2Aq)对照中观察到的疾病无法区分。相比之下,HLA - DQ8 - ,H - 2Ab0同窝小鼠未产生CII抗体,并且对关节炎完全有抗性。因此,这些结果强烈表明HLA - DQ8分子促成了关节炎的遗传易感性,并且还建立了一种用于研究人类关节炎的新型动物模型。