The junb gene behaves as an immediate early gene in bacterial lipopolysaccharide (LPS)-stimulated dendritic cells (DCs), where its transient transcriptional activation is necessary for the induction of inflammatory cytokines, junb is a short gene andits transcriptional activation by LPS depends on the binding of NF-kB to an enhancer located just downstream of its 3 UTR. Here, we have addressed the mechanisms underlying the transcriptional hyper-reactivity of junb. Using transfection and pharmacological assays to complement chromatin immunoprecipitation analyses addressing the localization of histones, polymerase II, negative elongation factor (NELF)-, DRB sensitivity-inducing factor (DSIF)- and Positive Transcription Factor b complexes, we demonstrate that junb is a RNA Pol ll-paused gene where Pol II is loaded in the transcription start site domain but poorly active. Moreover, High salt-Recovered Sequence, chromosome conformation capture (3C)- and gene transfer experiments show that (i) junb is organized in a nuclear chromatin loop bringing into close spatial proximity the upstream promoter region and the downstream enhancer and (ii) this configuration permits immediate Pol II release on the junb body on binding of LPS-activated NF-kB to the enhancer. Thus, our work unveils a novel topological framework underlying fast junb transcriptional response in DCs. Moreover, it also points to a novel layer of complexity in the modes of action of NF-kB.
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机译:junb基因在细菌脂多糖(LPS)刺激的树突状细胞(DCs)中起着立即早期基因的作用,其瞬时转录激活对于诱导炎性细胞因子是必需的,junb是短基因,其通过LPS的转录激活取决于NF-kB与位于其3 UTR下游的增强子的结合。在这里,我们已经解决了junb转录超反应性的潜在机制。使用转染和药理分析来补充染色质免疫沉淀分析,以解决组蛋白,聚合酶II,负伸长因子(NELF)-,DRB敏感性诱导因子(DSIF)-和正转录因子b复合物的定位,我们证明了junb是一种RNA Pol II暂停的基因,其中Pol II装载在转录起始位点域中,但活性较弱。此外,高盐回收序列,染色体构象捕获(3C)和基因转移实验表明,(i)junb在核染色质环中组织,使上游启动子区域和下游增强子在空间上紧密接近,并且(ii)构型允许LPS激活的NF-kB与增强子结合后,Pol II立即释放在菌体上。因此,我们的工作揭示了DC中快速junb转录反应基础的新型拓扑框架。此外,它还指出了NF-kB作用方式中的新型复杂性。
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