Transcription of the Escherichia coli osmB gene is induced by several stress conditions. osmB is expressed from two promoters, osmBp1 and osmBp2. The downstream promoter, osmBp2, is induced after osmotic shock or upon entry into stationary phase in a S -dependent manner. The upstream promoter, osmBp1, is independent of S and is activated by RcsB, the response regulator of the His-Asp phosphorelay signal transduction system RcsCDB. RcsB is responsible for the induction of osmBp1 following treatment with chlorpromazine. Activation of osmBp1 by RcsB requires a sequence upstream of its ؊35 element similar to the RcsB binding site consensus, suggesting a direct regulatory role. osmB appears as another example of a multistress-responsive gene whose transcription involves both a S -dependent promoter and a second one independent of S but controlled by stress-specific transcription factors.To adapt to adverse conditions, bacterial cells induce specific families of genes that promote growth or survival in stressful environments. Many such genes can be induced by a variety of stresses through several transcriptional regulators acting on one or several stress-inducible promoters. In Escherichia coli, osmB is an example of a multistress-responsive gene, and we are investigating its regulation with the aim of understanding better the complex interplay of regulators resulting in multistress response. osmB encodes an outer membrane lipoprotein of an as yet unknown function (21). First identified as an osmotically inducible gene, osmB is also induced upon entry into stationary phase in a S -dependent manner (13,18,20). RNA mapping experiments suggested that osmB is expressed under the control of two promoters. The downstream promoter, named osmBp2, was unambiguously characterized by deletion mapping and RNA analysis (20). In contrast, the proposed upstream promoter, osmBp1, contained no sequences similar to the canonical Ϫ10 and Ϫ35 elements upstream from the mRNA 5Ј end determined by RNase protection experiments, and its identification remained uncertain (20).Recently, transcriptome analysis revealed that osmB is a target of the RcsCDB His-Asp phosphorelay system (7, 16; our unpublished results). Initially found to regulate the synthesis of the capsular polysaccharide in E. coli (11), the response regulator RcsB was also shown to activate osmCp1, a S -independent promoter of the multistress-responsive gene osmC. This activation occurs through the binding of RcsB to a site upstream from the Ϫ35 box of osmCp1 (5, 25, 26) and is responsible for the induction of osmCp1 upon exposure to the cationic amphipathic molecule chlorpromazine (3).We investigated here the organization of the osmB promoter region and the mechanism of activation of osmB transcription by RcsCDB. We demonstrate that osmB is transcribed under the control of two independent promoters. The downstream promoter, osmBp2, is S dependent and responsible for the response to the phase of growth and to osmotic shock, whereas the upstream promoter, osmBp1, is S independent...
