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沙门氏菌 Spi1 毒力调节蛋白 HilD 直接激活鞭毛主要操纵子 flhDC 的转录。

The Salmonella Spi1 virulence regulatory protein HilD directly activates transcription of the flagellar master operon flhDC.

机构信息

Microbiologie, Département de Médecine, Université de Fribourg, Fribourg, Switzerland.

出版信息

J Bacteriol. 2014 Apr;196(7):1448-57. doi: 10.1128/JB.01438-13. Epub 2014 Jan 31.

DOI:10.1128/JB.01438-13
PMID:24488311
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3993337/
Abstract

Infection of intestinal epithelial cells is dependent on the Salmonella enterica serovar Typhimurium pathogenicity island 1 (Spi1)-encoded type III injectisome system and flagellar motility. Thus, the expression of virulence and flagellar genes is subject to tight regulatory control mechanisms in order to ensure the correct spatiotemporal production of the respective gene products. In this work, we reveal a new level of cross-regulation between the Spi1 and flagellar regulatory systems. Transposon mutagenesis identified a class of mutants that prevented flhDC autorepression by overexpressing HilD. HilD, HilC, RtsA, and HilA comprise a positive regulatory circuit for the expression of the Spi1 genes. Here, we report a novel transcriptional cross talk between the Spi1 and flagellar regulons where HilD transcriptionally activates flhDC gene expression by binding to nucleotides -68 to -24 upstream from the P5 transcriptional start site. We additionally show that, in contrast to the results of a previous report, HilA does not affect flagellar gene expression. Finally, we discuss a model of the cross-regulation network between Spi1 and the flagellar system and propose a regulatory mechanism via the Spi1 master regulator HilD that would prime flagellar genes for rapid reactivation during host infection.

摘要

肠上皮细胞的感染依赖于沙门氏菌肠亚种 Typhimurium 致病岛 1(Spi1)编码的 III 型注入系统和鞭毛运动。因此,毒力和鞭毛基因的表达受到严格的调控控制机制的控制,以确保各自基因产物的正确时空产生。在这项工作中,我们揭示了 Spi1 和鞭毛调节系统之间的新的交叉调节水平。转座子诱变鉴定了一类突变体,通过过表达 HilD 来阻止 flhDC 自身抑制。HilD、HilC、RtsA 和 HilA 组成了 Spi1 基因表达的正调控回路。在这里,我们报告了 Spi1 和鞭毛调控子之间的一种新的转录交叉对话,其中 HilD 通过结合 P5 转录起始位点上游的 -68 至-24 个核苷酸来转录激活 flhDC 基因表达。我们还表明,与之前报告的结果相反,HilA 不影响鞭毛基因的表达。最后,我们讨论了 Spi1 和鞭毛系统之间的交叉调控网络的模型,并提出了一种通过 Spi1 主调控因子 HilD 的调控机制,该机制将为宿主感染期间鞭毛基因的快速重新激活做好准备。

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