The attenuated phenotype of a Salmonella typhimurium flgM mutant is related to expression of FliC flagellin.

The flgM gene of Salmonella typhimurium encodes a negative regulator of flagellin synthesis that acts by inhibiting the flagellum-specific sigma factor FliA (sigma 28), but only when a mutation in a flagellar basal body, hook, or switch gene is present. We previously showed that FlgM is also necessary for the virulence of S. typhimurium in the mouse model of typhoid fever and proposed that FlgM is required to modulate the activity of the FliA sigma factor, which, in turn, regulates a gene involved in virulence. In this investigation, we observed that (i) the in vitro generation times of flgM mutant and wild-type strains of S. typhimurium were indistinguishable, as were the amounts of flagellin produced by the strains; (ii) the 50% lethal doses of fliA mutant and wild-type strains of S. typhimurium were similar in orally infected mice; and (iii) inactivation of the FliA-regulated flagellin gene fliC in an flgM S. typhimurium mutant resulted in a virulent phenotype. Therefore, we now conclude that expression of the FliC flagellin subunit in an flgM strain is responsible for the attenuated phenotype of an flgM mutant and that FliA does not appear to positively regulate virulence genes in S. typhimurium. Our results suggest that the normal regulation of flagellum synthesis appears to be necessary for virulence and that there may be an advantage conferred in vivo by expression of a particular flagellar phenotype of S. typhimurium.     

Mutation of flgM attenuates virulence of Salmonella typhimurium, and mutation of fliA represses the attenuated phenotype.

Salmonella typhimurium ST39 exhibits reduced virulence in mice and decreased survival in mouse macrophages compared with the parent strain SL3201. Strain ST39 is nonmotile, carries an indeterminate deletion in and near the flgB operon, and is defective in the mviS (mouse virulence Salmonella) locus. In flagellum-defective strains, the flgM gene product of S. typhimurium negatively regulates flagellar genes by inhibiting the activity of FliA, the flagellin-specific sigma factor. In this study, flgM of wild-type S. typhimurium LT2 was found to complement the mviS defect in ST39 for virulence in mice and for enhanced survival in macrophages. Transduction of flgM::Tn10dCm into the parent strain SL3201 resulted in attenuation of mouse virulence and decreased survival in macrophages. However, a flgM-fliA double mutant was fully virulent in mice and survived in macrophages at wild-type levels. Thus, the absolute level of FliA activity appears to affect the virulence of S. typhimurium SL3201 in mice. DNA hybridization studies showed that flgM-related sequences were present in species other than Salmonella typhimurium and that sequences related to that of fliA were common among members of the family Enterobacteriaceae. Our results demonstrate that flgM and fliA, two genes previously shown to regulate flagellar operons, are also involved in the regulation of expression of virulence of S. typhimurium and that this system may not be unique to the genus Salmonella.