Schooley Kenneth, Zhu Ping, Dower Steven K, Qwarnström Eva E
Department of Biochemistry, Immunex Research and Development Corporation, 51 University Street, Seattle, Washington 98101, U.S.A.
Biochem J. 2003 Jan 15;369(Pt 2):331-9. doi: 10.1042/BJ20020253.
We have analysed activation of nuclear factor-kappaB (NF-kappaB) in response to interleukin-1 (IL-1) in human fibroblasts by tracking intracellular distribution and levels of endogenous relA, NF-kappaB1 and inhibitor of kappaB (I-kappaB) alpha using semi-quantitative confocal microscopy. Nuclear translocation of endogenous relA correlated with I-kappaBalpha degradation during stimulation with IL-1, whereas no effects were seen on levels or localization of NF-kappaB1. During pathway activation, relA was transported up a concentration gradient, resulting in a 3-4-fold increase in nuclear levels, but without any significant decrease in cytoplasmic concentration. IL-1 stimulation caused translocation of only 20% of the relA, but resulted in degradation of up to 70% of the cytoplasmic I-kappaBalpha. RelA nuclear translocation in fibroblasts correlated with DNA-binding activity measured by electrophoretic mobility shift assay (EMSA), both with respect to kinetics and IL-1 concentration-dependence. Clonal populations of cells demonstrated a marked degree of heterogeneity in the response to IL-1. The single-cell assay revealed the presence of responder and non-responder subpopulations, with an enhanced proportion of responder cells, and prolonged responses at higher concentrations of IL-1. Comparing different cell types demonstrated that whereas HepG2 cells, as fibroblasts, showed good correlation between nuclear translocation of relA and activation of DNA binding by relA-containing dimers, EL4 thymoma cells showed no effect on relA localization, even during induction of significant levels NF-kappaB activity, as measured by EMSA. The analysis shows that stimulation by IL-1 results in transient perturbation of the NF-kappaB system, which cycles between the resting and active states with net redistribution of a minor proportion of its DNA-binding component. In addition, it demonstrates significant cell-to-cell variations, as well as cell-type-specific differences in net relA nuclear transport in response to stimuli. The data are consistent with NF-kappaB constituting a dynamic and versatile system, regulated to a significant degree by binary events involving bidirectional trafficking between the cytoplasmic and nuclear compartments during pathway activation.
我们通过使用半定量共聚焦显微镜追踪内源性relA、NF-κB1和κB抑制蛋白(I-κB)α的细胞内分布及水平,分析了人成纤维细胞中核因子-κB(NF-κB)对白细胞介素-1(IL-1)的应答激活情况。内源性relA的核转位与IL-1刺激期间I-κBα的降解相关,而NF-κB1的水平或定位未见变化。在信号通路激活过程中,relA沿浓度梯度转运,导致核内水平增加3至4倍,但胞质浓度无显著降低。IL-1刺激仅使20%的relA发生转位,但导致高达70%的胞质I-κBα降解。成纤维细胞中relA的核转位与通过电泳迁移率变动分析(EMSA)测定的DNA结合活性在动力学和IL-1浓度依赖性方面均相关。细胞克隆群体对IL-1的应答表现出显著的异质性。单细胞分析揭示了应答和无应答亚群的存在,应答细胞比例增加且在较高浓度IL-1时应答延长。比较不同细胞类型表明,HepG2细胞和成纤维细胞一样,relA的核转位与含relA二聚体的DNA结合激活之间具有良好的相关性,而EL4胸腺瘤细胞即使在通过EMSA测定诱导出显著水平的NF-κB活性时,relA定位也无变化。分析表明,IL-1刺激导致NF-κB系统的短暂扰动,该系统在静止和激活状态之间循环,其DNA结合成分的一小部分发生净重新分布。此外,它还证明了细胞间存在显著差异,以及在对刺激的应答中relA核转运的细胞类型特异性差异。这些数据与NF-κB构成一个动态且多功能的系统一致,在信号通路激活过程中,该系统在很大程度上受涉及胞质和核区室之间双向运输的二元事件调控。