Mountz J D, Smith T M, Toth K S
Veterans Administration Medical Center, Birmingham, AL 35294.
J Immunol. 1990 Mar 15;144(6):2159-66.
Intrathymic tolerance results in elimination of T cells bearing self-reactive TCR V beta regions in mice expressing certain combinations of I-E and minor lymphocyte stimulatory (Mls) phenotypes. To determine if autoimmune strains of mice have a defect in intrathymic deletion of self-reactive TCR V beta regions, expression of V beta 3, V beta 6, V beta 8.1, and V beta 11 were examined in lpr/lpr and +/+ strains of mice; MRL/MpJ(H-2K, I-E+, Mlsb,), C57BL/6J(H-2b, I-E-, Mlsb,), C3H/HeJ(H-2k, I-E+, Mlsc), AKR/J(H-2k, I-E+, Mlsa); and in autoimmune NZB/N(H-2d, I-E+, Mlsa) and BXSB(H-2b, I-E-, Mlsb) mice. The results suggest that, during intrathymic development, self-reactive T cells are deleted in autoimmune strains of mice as found in normal control strains of mice. However, the TCR V beta repertoire is skewed in autoimmune strains compared to normal strains of mice. For example, MRL-lpr/lpr mice, but not other lpr/lpr strains, had increased expression of V beta 6 relative to expression in control MRL(-)+/+ mice, which is associated with collagen-induced arthritis. These data are consistent with a model of normal affinity for negative selection of self-reactive T cells in the thymus of autoimmune strains of mice followed by expansion of autoreactive T cell clones in the peripheral lymphoid organs. The peripheral lymphoid organs of lpr/lpr mice contain an expanded population of abnormal CD4-, CD8-, 6B2+ T cells. Elimination of self-reactive peripheral T cells suggests that these abnormal cells are derived from a CD4+ subpopulation in the thymus. Flow cytometry analysis of peripheral lymph node T cells from MRL-lpr/lpr mice reveal three populations of CD4+ T cells expressing low, intermediate and high intensity of B220 (6B2). This supports the hypothesis that in lpr/lpr mice, self-reactive CD4+ T cells are eliminated in the thymus, and that these cells lose expression of CD4 and acquire expression of 6B2 in the periphery.
在表达特定I-E和次要淋巴细胞刺激(Mls)表型组合的小鼠中,胸腺内耐受导致带有自身反应性TCR Vβ区域的T细胞被清除。为了确定自身免疫性小鼠品系在胸腺内自身反应性TCR Vβ区域的缺失是否存在缺陷,检测了lpr/lpr和+/+小鼠品系中Vβ3、Vβ6、Vβ8.1和Vβ11的表达;包括MRL/MpJ(H-2K,I-E+,Mlsb)、C57BL/6J(H-2b,I-E-,Mlsb)、C3H/HeJ(H-2k,I-E+,Mlsc)、AKR/J(H-2k,I-E+,Mlsa);以及自身免疫性的NZB/N(H-2d,I-E+,Mlsa)和BXSB(H-2b,I-E-,Mlsb)小鼠。结果表明,在胸腺发育过程中,自身反应性T细胞在自身免疫性小鼠品系中如同在正常对照小鼠品系中一样被清除。然而,与正常小鼠品系相比,自身免疫性品系中的TCR Vβ库存在偏差。例如,MRL-lpr/lpr小鼠而非其他lpr/lpr品系,相对于对照MRL(-)+/+小鼠,Vβ6的表达增加,这与胶原诱导的关节炎相关。这些数据与一个模型相符,即在自身免疫性小鼠品系的胸腺中,自身反应性T细胞的阴性选择具有正常亲和力,随后自身反应性T细胞克隆在外周淋巴器官中扩增。lpr/lpr小鼠的外周淋巴器官含有扩增的异常CD4-、CD8-、6B2+ T细胞群体。自身反应性外周T细胞的清除表明这些异常细胞源自胸腺中的CD4+亚群。对MRL-lpr/lpr小鼠外周淋巴结T细胞的流式细胞术分析揭示了表达低、中、高强度B220(6B2)的三个CD4+ T细胞群体。这支持了以下假设:在lpr/lpr小鼠中,自身反应性CD4+ T细胞在胸腺中被清除,并且这些细胞在周围组织中失去CD4表达并获得6B2表达。
