Characterization of the rcsA and rcsB genes from Salmonella typhi: rcsB through tviA is involved in regulation of Vi antigen synthesis.

Synthesis of Vi antigen, a capsular polysaccharide expressed by Salmonella typhi, is controlled by the viaA and viaB chromosomal loci. It was previously shown that Vi antigen expression was regulated by a system similar to the rcs regulatory system involved in colanic acid synthesis in Escherichia coli. We have cloned the rcsA, rcsB, and rcsC genes from S. typhi. The predicted amino sequences of the RcsA and RcsB proteins showed a high degree of similarity to their E. coli homologs. The nucleotide sequence of the rcsC gene was partially determined and was shown to be homologous to that of its E. coli counterpart. Complementation experiments indicated that rcsB and rcsC were encompassed within the viaA locus. The RcsA protein was not involved in Vi antigen synthesis. In contrast, the RcsB protein acted as a positive regulator of Vi polysaccharide expression. By mRNA and gene fusion analyses, we studied the role of RcsB and TviA, a via-B-encoded regulatory protein characterized previously, in regulating Vi antigen synthesis. The transcriptional start point of tviA mRNA was not influenced by RcsB or TviA. In the absence of RcsB or TviA protein, transcription of tviA gave rise to only a monocistronic tviA-specific mRNA. The presence of RcsB and TriA not only increased the amount of monocistronic tviA-specific mRNA but also resulted in countranscription of tviA and tviB, which is located immediately downstream of tviA on the viaB locus. In addition, TviA protein did not appear to be subject to degradation by the Lon protease. These results strongly suggest that TviA might act in concert with RcsB at the tviA promoter to activate transcription of the genes involved in Vi polymer synthesis in S. typhi in a Lon-independent manner.

Role of the viaB locus in synthesis, transport and expression of Salmonella typhi Vi antigen.

The Vi antigen is a capsular polysaccharide expressed by Salmonella typhi, the agent of human typhoid fever. Expression of this antigen is controlled by the viaA and viaB chromosomal loci. The viaB locus is composed of 11 genes designated tviA-tviE (typhi Vi), vexA-vexE (Vi antigen export) and ORF11. We constructed S. typhi Ty2 strains carrying non-polar mutations in ten genes located at the viaB locus and examined the individual contribution of each gene to Vi phenotype. Phenotypes of the mutants and complementation experiments suggested that synthesis of Vi antigen monomer was catalysed by the TviB and TviC polypeptides. Subsequent polymerization of the polysaccharide might be catalysed by the TviE protein, but required functional TviD product. Proteins encoded by vexA, vexB and vexC directed transport of the polymer to the bacterial cell surface. Anchoring of the Vi antigen at the bacterial cell surface was dependent of the VexE protein. The TviA protein was not essential for Vi polymer synthesis. However, disruption of the tviA gene on S. typhi Ty2 chromosome strongly decreased expression of Vi antigen. This defect was fully complemented by providing tviA in trans on a recombinant plasmid. By using lacZ transcriptional fusions, it was shown that the TviA product positively regulated co-transcription of the tviA and tviB genes from a promoter located upstream of tviA. Moreover, we showed that a tviAB-lacZ fusion was not expressed in a viaA (rcsB) mutant of S. typhi.(ABSTRACT TRUNCATED AT 250 WORDS)