Wozniak D J, Ohman D E
Department of Microbiology and Immunology, University of Tennessee, Memphis.
J Bacteriol. 1993 Jul;175(13):4145-53. doi: 10.1128/jb.175.13.4145-4153.1993.
Strains of Pseudomonas aeruginosa causing pulmonary infection in cystic fibrosis patients are often mucoid because of the synthesis of a capsular polysaccharide called alginate. Regulation of alginate biosynthesis includes the algB gene product (AlgB), which belongs to a class of proteins that control gene transcription in response to environmental stimuli. In this study, a homolog of the DNA-binding-and-bending protein integration host factor (IHF) and the positive regulatory gene algT were shown to be involved in algB expression. An algB-cat gene fusion was constructed on a low-copy-number, broad-host-range plasmid. In alginate-producing (Alg+) P. aeruginosa, levels of chloramphenicol acetyltransferase from algB-cat were twofold higher than in spontaneous Alg- or algT::Tn501 mutant strains, indicating that the mucoid status of the cell influences algB transcription. An algB transcription initiation site was identified 286 nucleotides upstream of translation initiation and revealed an Escherichia coli sigma 70-like promoter. Sequences in the algB promoter region were highly similar to the consensus E. coli IHF binding site. In DNA gel band mobility shift assays, a protein present in extracts from IHF+ E. coli strains and IHF purified from E. coli bound specifically to these algB DNA fragments, while extracts prepared from isogenic IHF- E. coli strains failed to alter the mobility of algB DNA fragments containing the consensus IHF binding site. A protein in cell extracts prepared from P. aeruginosa strains also demonstrated binding to algB fragments containing the IHF binding site, and the position of the complex formed with these extracts was identical to that of the complex formed with purified IHF. Moreover, this binding could be inhibited by anti-IHF antibodies. To test the role of the IHF site in algB regulation, site-specific mutations in the algB IHF site, based on changes which severely affect IHF binding in E. coli, were generated. When either purified E. coli IHF or extracts from P. aeruginosa were used in DNA binding studies, the algB mutant DNAs were severely reduced in IHF binding. Mutations affecting IHF binding at the algB promoter were introduced into the algB-cat plasmid, and all resulted in severely impaired transcriptional activity in Alg- and algT mutant strains of P. aeruginosa. However, these mutations resulted in similar or slightly reduced algB-cat transcription in Alg+ and algB::Tn501 mutant strains. Thus, the algT product plays a positive role in the high-level expression of algB in mucoid cells, whereas as protein present in P.aeruginosa extracts which is likely an IHF homolog plays a positive role in maintaining a basal level of algB expression in nonmucoid strains.
在囊性纤维化患者中引起肺部感染的铜绿假单胞菌菌株通常是黏液型的,这是因为合成了一种名为藻酸盐的荚膜多糖。藻酸盐生物合成的调控包括algB基因产物(AlgB),它属于一类响应环境刺激控制基因转录的蛋白质。在本研究中,DNA结合与弯曲蛋白整合宿主因子(IHF)的同源物和正调控基因algT被证明参与algB的表达。在一个低拷贝数、广泛宿主范围的质粒上构建了algB - cat基因融合体。在产生藻酸盐的(Alg +)铜绿假单胞菌中,algB - cat的氯霉素乙酰转移酶水平比自发的Alg - 或algT::Tn501突变菌株高两倍,表明细胞的黏液型状态影响algB转录。在翻译起始上游286个核苷酸处鉴定到一个algB转录起始位点,并揭示了一个类似大肠杆菌σ70的启动子。algB启动子区域的序列与大肠杆菌IHF结合位点的共有序列高度相似。在DNA凝胶迁移率变动分析中,来自IHF + 大肠杆菌菌株的提取物中存在的一种蛋白质以及从大肠杆菌中纯化的IHF特异性结合这些algB DNA片段,而从同基因的IHF - 大肠杆菌菌株制备的提取物未能改变含有共有IHF结合位点的algB DNA片段的迁移率。从铜绿假单胞菌菌株制备的细胞提取物中的一种蛋白质也证明与含有IHF结合位点的algB片段结合,并且与这些提取物形成的复合物的位置与与纯化的IHF形成的复合物的位置相同。此外,这种结合可以被抗IHF抗体抑制。为了测试IHF位点在algB调控中的作用,基于严重影响大肠杆菌中IHF结合的变化,在algB IHF位点产生了位点特异性突变体。当在DNA结合研究中使用纯化的大肠杆菌IHF或铜绿假单胞菌的提取物时,algB突变体DNA的IHF结合严重减少。将影响algB启动子处IHF结合的突变引入algB - cat质粒,所有这些突变都导致铜绿假单胞菌的Alg - 和algT突变菌株中的转录活性严重受损。然而,这些突变在Alg + 和algB::Tn501突变菌株中导致algB - cat转录相似或略有降低。因此,algT产物在黏液型细胞中algB的高水平表达中起积极作用,而铜绿假单胞菌提取物中可能是IHF同源物的一种蛋白质在维持非黏液型菌株中algB表达的基础水平方面起积极作用。
