Direct Interaction between Quorum-sensing Regulator SmcR and RNA Polymerase Is Mediated by Integration Host Factor to Activate vvpE Encoding Elastase in Vibrio vulnificus

Hye Sook Jeong,Seung Min Kim,Moon Sub Lim,Kun Soo Kim,Sang Ho Choi

doi:10.1074/jbc.m109.089987

Hye Sook Jeong, Seung Min Kim + Show 3 more

Open Access

https://doi.org/10.1074/jbc.m109.089987

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Abstract

It has been suggested that quorum sensing is an important signal transduction system regulating the expression of numerous virulence genes in bacterial pathogens. We previously revealed that SmcR, a LuxR homologue of Vibrio vulnificus, activates promoter S, an RpoS-dependent promoter of vvpE encoding a potential virulence factor elastase and binds in vitro to a binding site centered at -196.5. In this study, chromatin immunoprecipitation assays and promoter deletion analyses demonstrated that SmcR binds to the vvpE regulatory region in vivo and directly interacts with RNAP for activation of the vvpE expression. A search for regulatory genes involved in the regulation of elastase production singled out ihfA, which encodes for a subunit of integration host factor (IHF). Levels of both elastase activity and vvpE transcript decreased significantly as a result of inactivation of ihfA, and primer extension analyses demonstrated that IHF regulates the vvpE transcription by activating PS. Direct binding of IHF to the two distinct binding sites centered at -174 and -131, respectively, was determined using an electrophoretic mobility shift assay and a DNase I protection assay. Chromatin immunoprecipitation assays revealed that the interaction of SmcR with RNAP in vivo was mediated by IHF. Collectively, the results proposed a model whereby IHF positions SmcR to contact RNAP by looping the vvpE regulatory DNA, thus allowing precise control of the expression level of VvpE during the pathogenesis of V. vulnificus.

Highlights

Vibrio harveyi regulation of bioluminescence is frequently used as a model for quorum sensing
R6K␥ ori, oriT of RP4; Cmr pRK415 with promoterless luxAB; Tcr pUC18 with vvpE; Apr pHK0011 with 748-bp fragment of vvpE upstream region; Tcr pH S201 with Ϫ206/Ϫ197substitution of vvpE upstream region; Tcr pH S201 with Ϫ176/Ϫ167substitution of vvpE upstream region; Tcr pH S201 with Ϫ136/Ϫ127substitution of vvpE upstream region; Tcr pH S201 with Ϫ106/Ϫ97substitution of vvpE upstream region; Tcr pH S201 with Ϫ56/Ϫ47substitution of vvpE upstream region; Tcr pH S201 with Ϫ101/Ϫ97deletion of vvpE upstream region; Tcr pH S201 with Ϫ106/Ϫ97deletion of vvpE upstream region; Tcr pGEM T with ihfA; Apr pGEM T with ⌬ihfA; Apr pDM4 with ⌬ihfA; Cmr pRK415 with ihfA; Tcr pRSET C with ihfA; Apr pRSET C with ihfB; Apr a Apr, ampicillin-resistant; Cmr, chloramphenicol-resistant; Kmr, kanamycin-resistant; Tcr, tetracycline-resistant
SmcR Directly Binds to the vvpE Regulatory Region in Vivo— Because SmcR binding at Ϫ196.5 is unusually distant for the protein to interact directly with RNAP, we examined whether the SmcR binding to the vvpE regulatory region occurs in V. vulnificus

Summary

EXPERIMENTAL PROCEDURES

The resulting chromatin-antibody complex was precipitated with protein A-Sepharose and washed, and the sheared chromatins were eluted using the method described elsewhere [22]. Were developed by substituting a 10-bp wild type sequence with the mutant sequence (5Ј-GTGGATCCTC-3Ј) using the PCR-mediated linker-scanning mutation method as described previously [17, 23]. Thi thr leu tonA lacY supE recA::RP4-2-Tc::Mu ␭pir, oriT of RP4, Kmr; conjugational donor FϪ, ompT, hsdS (rBϪ, mBϪ), gal(DE3). R6K␥ ori (requires ␲), oriT of RP4; Cmr pRK415 with promoterless luxAB; Tcr pUC18 with vvpE; Apr pHK0011 with 748-bp fragment of vvpE upstream region; Tcr pH S201 with Ϫ206/Ϫ197substitution of vvpE upstream region; Tcr pH S201 with Ϫ176/Ϫ167substitution of vvpE upstream region; Tcr pH S201 with Ϫ136/Ϫ127substitution of vvpE upstream region; Tcr pH S201 with Ϫ106/Ϫ97substitution of vvpE upstream region; Tcr pH S201 with Ϫ56/Ϫ47substitution of vvpE upstream region; Tcr pH S201 with Ϫ101/Ϫ97deletion of vvpE upstream region; Tcr pH S201 with Ϫ106/Ϫ97deletion of vvpE upstream region; Tcr pGEM T with ihfA; Apr pGEM T with ⌬ihfA; Apr pDM4 with ⌬ihfA; Cmr pRK415 with ihfA; Tcr pRSET C with ihfA; Apr pRSET C with ihfB; Apr a Apr, ampicillin-resistant; Cmr, chloramphenicol-resistant; Kmr, kanamycin-resistant; Tcr, tetracycline-resistant

26 Laboratory collection

RESULTS

DISCUSSION