Figure 2 MsrA/MsrB is induced upon overexpression of rpoE via transcriptional control. Protein Fosbretabulin mouse analysis of the cytoplasmic and crude membrane fraction by SDS-PAGE (A) and corresponding transcriptional analysis of msrA/mrsB by RT-PCR (B) of the wt strain (H44/76) and H44/76 transformed with pNMB2144 before (-) and after induction (+). Molecular weight markers (in kDa) indicated on SCH772984 cost the left. Arrow indicates MsrA/MsrB. MsrA/MsrB is transcriptionally controlled
by σE To ascertain that msrA/msrB is under direct control of σE, transcript levels of msrA/msrB in diverse meningococcal genetic backgrounds were analyzed by RT-PCR using RNA isolated from cells grown in the absence and presence of IPTG and primers targeting msrA/msrB. When H44/76 wt or H44/76 + pNMB2144 cells were grown in the absence of IPTG, no detectable RT-PCR products were observed. In contrast, when H44/76 + pNMB2144 cells were grown in the presence of IPTG, an RT-PCR product with a size indicative of transcription of msrA/msrB was found
(Fig. 2b). The identity of the transcript was confirmed by sequencing of the RT-PCR product. These results strongly suggest that msrA/msrB is transcriptionally controlled by σE. NMB2145 inhibits transcription of the rpoE regulon One possible explanation for low σE activity in H44/76 wt cells under the growth conditions tested is that σE is kept in an inactive selleck kinase inhibitor state through an interaction with an anti-σ factor, thereby preventing σE binding to core RNA polymerase, one of the ways to inhibit σ activity Dimethyl sulfoxide found in σ-regulator circuits in other bacteria [43–47]. Interestingly, it was
recently reported that NMB2145 contains the ZAS motif Hisx3Cysx2Cys [48], characteristic for a subset of group IV σ anti-σ factors, usually encoded directly downstream of rpoE and cotranscribed [26]. Amino acid sequence comparison of orthologues of NMB2145 in genomes of three other meningococcal strains, two gonococcal strains and six commensal neisserial species (N. cinerea, N. flavescence, N. lactamica, N. mucosa, N. sicca and N. subflava) revealed that the region containing the ZAS motif, as well as the region around Cys4, are highly conserved in these neisserial orthologues of NMB2145. This in contrast with other much less well conserved parts, highlighting the importance of the conserved regions (Fig. 3). The relative positions of the Cys residue and the ZAS motif in NMB2145 (Cys4; His30, Cys34 and Cys37) correspond exactly with those of the Cys residue and the ZAS motif in RsrA (Cys11; His37, Cys41 and Cys44), the anti-σR factor of Streptomyces coelicolor, of which the Cys residues, but not His37, are essential for anti-σ activity of the protein [29] (Fig. 3). These observations suggest that NMB2145 codes for the meningococcal anti-σE factor.