One Gene and Two Proteins: a Leaderless mRNA Supports the Translation of a Shorter Form of the Shigella VirF Regulator.

Maria Letizia Di Martino,Cédric Romilly,E Gerhart H Wagner,Bianca Colonna,Gianni Prosseda,Bonnie Bassler

doi:10.1128/mbio.01860-16

Maria Letizia Di Martino, Cédric Romilly + Show 4 more

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https://doi.org/10.1128/mbio.01860-16

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Abstract

ABSTRACTVirF, an AraC-like activator, is required to trigger a regulatory cascade that initiates the invasive program of Shigella spp., the etiological agents of bacillary dysentery in humans. VirF expression is activated upon entry into the host and depends on many environmental signals. Here, we show that the virF mRNA is translated into two proteins, the major form, VirF30 (30 kDa), and the shorter VirF21 (21 kDa), lacking the N-terminal segment. By site-specific mutagenesis and toeprint analysis, we identified the translation start sites of VirF30 and VirF21 and showed that the two different forms of VirF arise from differential translation. Interestingly, in vitro and in vivo translation experiments showed that VirF21 is also translated from a leaderless mRNA (llmRNA) whose 5′ end is at position +309/+310, only 1 or 2 nucleotides upstream of the ATG84 start codon of VirF21. The llmRNA is transcribed from a gene-internal promoter, which we identified here. Functional analysis revealed that while VirF30 is responsible for activation of the virulence system, VirF21 negatively autoregulates virF expression itself. Since VirF21 modulates the intracellular VirF levels, this suggests that transcription of the llmRNA might occur when the onset of the virulence program is not required. We speculate that environmental cues, like stress conditions, may promote changes in virF mRNA transcription and preferential translation of llmRNA.

Highlights

VirF, an AraC-like activator, is required to trigger a regulatory cascade that initiates the invasive program of Shigella spp., the etiological agents of bacillary dysentery in humans
To analyze which VirF forms are present in Shigella, a 3ϫFLAG tag sequence was inserted at the 3= end of the S. flexneri M90T virF open reading frames (ORFs)
A specific toeprint was observed at position ϩ326 for the leaderless mRNA (llmRNA) R2 (Fig. 7D). This toeprint was absent on R1 mRNA, indicating a strong preference for VirF30 translation from the full-length mRNA. These results suggest that a new virF promoter generates a llmRNA variant (R2 mRNA) dedicated to the exclusive translation of VirF21

Summary

Introduction

VirF, an AraC-like activator, is required to trigger a regulatory cascade that initiates the invasive program of Shigella spp., the etiological agents of bacillary dysentery in humans. IMPORTANCE Shigella spp. are a major cause of dysentery in humans In bacteria of this genus, the activation of the invasive program involves a multitude of signals that act on all layers of the gene regulatory hierarchy. A key factor is VirF, an AraC-like transcription factor (TF) whose expression is activated as Shigella bacteria sense entry into the host environment [4, 5]. IcsA affects bacterial intracellular spreading, and VirB promotes expression of several virulence genes, including those encoding a type III secretion system (T3SS), its effectors, and the last regulator of the cascade, MxiE [6, 7]. VirF30 activates the virulence system and some chromosomal genes, whereas VirF21 exerts negative feedback control on virF expression itself

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