Most RNA molecules require Mg(2+) for their structure and enzymatic properties. Here we report the first example of an RNA serving as sensor for cytoplasmic Mg(2+). We establish that expression of the Mg(2+) transporter MgtA of Salmonella enterica serovar Typhimurium is controlled by its 5' untranslated region (5'UTR). We show that the 5'UTR of the mgtA gene can adopt different stem-loop structures depending on the Mg(2+) levels, which determine whether transcription reads through into the mgtA coding region or stops within the 5'UTR. We could recapitulate the Mg(2+)-regulated transcription using a defined in vitro transcription system with RNA polymerase as the only protein component. The initiation of mgtA transcription responds to extracytoplasmic Mg(2+) and its elongation into the coding region to cytoplasmic Mg(2+), providing a singular example in which the same ligand is sensed in different cellular compartments to regulate disparate steps in gene transcription.
The PhoP/PhoQ two-component system is a master regulator that governs the ability of Salmonella to cause a lethal infection in mice, the adaptation to low Mg 2؉ environments, and resistance to a variety of antimicrobial peptides. We have recently established that the PhoP-activated ugtL gene is required for resistance to the antimicrobial peptides magainin 2 and polymyxin B. Here we report that ugtL transcription requires not only the PhoP protein but also the virulence regulatory protein SlyA. The PhoP protein footprinted two regions of the ugtL promoter, mutation of either one of which was sufficient to abolish ugtL transcription. Although the SlyA protein is a transcriptional activator of the ugtL gene, it footprinted the ugtL promoter at a region located downstream of the transcription start site. The PhoP protein footprinted the slyA promoter, indicating that it controls slyA transcription directly. The slyA mutant was hypersensitive to magainin 2 and polymyxin B, suggesting that the virulence attenuation exhibited by slyA mutants may be caused by hypersensitivity to antimicrobial peptides. We propose that the PhoP and SlyA proteins control ugtL transcription using a feed-forward loop design.
SummaryIn Salmonella enterica , the PhoP-PhoQ twocomponent system governs resistance to structurally different antimicrobial peptides including the alphahelical magainin 2, the b b b b -sheet defensins and the cyclic lipopeptide polymyxin B. To identify the PhoPregulated determinants mediating peptide resistance, we prepared a plasmid library from a phoP mutant, introduced it into a phoP mutant and selected for magainin-resistant clones. One of the clones harboured the PhoP-activated ugtL gene, deletion of which rendered Salmonella susceptible to magainin 2 and polymyxin B, but not defensin HNP-1. We established that ugtL encodes an inner membrane protein that promotes the formation of monophosphorylated lipid A in the lipopolysaccharide. Inactivation of both ugtL and the regulatory gene pmrA , which controls lipid A modifications required for resistance to polymxyin B (but not to magainin 2) and is post-transcriptionally activated by the PhoP-PhoQ system, resulted in a strain that was as susceptible to polymyxin B as a phoP mutant. The most frequently recovered clone harboured the yqjA gene, which we show is PhoP regulated and required for resistance to magainin 2 but not to polymyxin B or defensin HNP-1. Our results indicate that different PhoP-mediated modifications in lipid A are necessary for resistance to different antimicrobial peptides.
SUMMARY Bacterial mRNAs often contain leader sequences that respond to specific metabolites or ions by altering expression of the associated downstream protein coding sequences. Here we report that the leader RNA of the Mg2+ transporter gene mgtA of Salmonella enterica, which was previously known to function as a Mg2+-sensing riboswitch, harbors an 18-codon proline-rich open reading frame – termed mgtL – that permits intracellular proline to regulate mgtA expression. Interfering with mgtL translation by genetic, pharmacological or environmental means was observed to increase the mRNA levels from the mgtA coding region. Substitution of the mgtL proline codons by other codons abolished the response to proline and to hyperosmotic stress but not to Mg2+. Our findings show that mRNA leader sequences can consist of complex regulatory elements that utilize different mechanisms to sense separate signals and mediate an appropriate cellular response.
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