Douchin Véronique, Bohn Chantal, Bouloc Philippe
Signalisation et Réseaux de Régulations Bactériens, Institut de Génétique et Microbiologie, CNRS/UMR8621/IFR115, Centre Scientifique d'Orsay, Université Paris-Sud, 91405 Orsay Cedex, France.
J Biol Chem. 2006 May 5;281(18):12253-9. doi: 10.1074/jbc.M600819200. Epub 2006 Mar 2.
Adaptation to extracytoplasmic stress in Escherichia coli depends on the activation of sigmaE, normally sequestered by the membrane protein RseA. SigmaE is released in response to stress through the successive RseA cleavage by DegS and the RIP protease RseP. SigmaE and proteases that free it from RseA are essential. We isolated a multicopy suppressor that alleviated RseP and DegS requirement. The suppressor encodes a novel small RNA, RseX. Its activity required the RNA-binding protein Hfq. We used the property that small RNAs are often involved in RNA-RNA interactions to capture RseX putative partners; ompA and ompC mRNA, which encode two major outer membrane proteins, were identified. RseX activity was shown to confer an Hfq-dependent coordinate OmpA and OmpC down-regulation. Because RseP is shown to be no longer essential in a strain lacking OmpA and OmpC, we conclude that RseP, which is required for normal sigmaE activation, prevents toxicity due to the presence of two specific outer membrane proteins that are down-regulated by RseX.
大肠杆菌对外胞质应激的适应取决于σE的激活,σE通常被膜蛋白RseA隔离。在应激反应中,σE通过DegS和RIP蛋白酶RseP对RseA的连续切割而被释放。σE及其从RseA中释放出来的蛋白酶是必不可少的。我们分离出了一个多拷贝抑制子,它减轻了对RseP和DegS的需求。该抑制子编码一种新型小RNA,即RseX。其活性需要RNA结合蛋白Hfq。我们利用小RNA通常参与RNA-RNA相互作用的特性来捕获RseX的假定伙伴;编码两种主要外膜蛋白的ompA和ompC mRNA被鉴定出来。结果表明,RseX的活性可导致Hfq依赖性的OmpA和OmpC协同下调。由于在缺乏OmpA和OmpC的菌株中,RseP不再是必需的,我们得出结论,正常σE激活所需的RseP可防止因存在两种被RseX下调的特定外膜蛋白而产生的毒性。
