Signal transduction-dependent small regulatory RNA is involved in glutamate metabolism of the human pathogen Bordetella pertussis
- Kristina Keidel1,
- Fabian Amman2,3,
- Ilona Bibova1,
- Jakub Drzmisek1,
- Vladimir Benes4,
- David Hot5 and
- Branislav Vecerek1
- 1Institute of Microbiology v.v.i., Laboratory of post-transcriptional control of gene expression, 14220 Prague, Czech Republic
- 2Institute for Theoretical Chemistry, University of Vienna, A-1090 Vienna, Austria
- 3Department of Chromosome Biology of the University of Vienna, A-1030 Vienna, Austria
- 4Genomics Core Facility, European Molecular Biology Laboratory, 69117 Heidelberg, Germany
- 5Université de Lille, CNRS, Inserm, CHU Lille, Institut Pasteur de Lille, U1019 – UMR8204 – CIIL – Center for Infection and Immunity of Lille, F-59000 Lille, France
- Corresponding author: vecerek{at}biomed.cas.cz
Abstract
Bordetella pertussis is the causative agent of human whooping cough, a highly contagious respiratory disease which despite vaccination programs remains the major cause of infant morbidity and mortality. The requirement of the RNA chaperone Hfq for virulence of B. pertussis suggested that Hfq-dependent small regulatory RNAs are involved in the modulation of gene expression. High-throughput RNA sequencing revealed hundreds of putative noncoding RNAs including the RgtA sRNA. Abundance of RgtA is strongly decreased in the absence of the Hfq protein and its expression is modulated by the activities of the two-component regulatory system BvgAS and another response regulator RisA. Whereas RgtA levels were elevated under modulatory conditions or in the absence of bvg genes, deletion of the risA gene completely abolished RgtA expression. Profiling of the ΔrgtA mutant in the ΔbvgA genetic background identified the BP3831 gene encoding a periplasmic amino acid-binding protein of an ABC transporter as a possible target gene. The results of site-directed mutagenesis and in silico analysis indicate that RgtA base-pairs with the region upstream of the start codon of the BP3831 mRNA and thereby weakens the BP3831 protein production. Furthermore, our data suggest that the function of the BP3831 protein is related to transport of glutamate, an important metabolite in the B. pertussis physiology. We propose that the BvgAS/RisA interplay regulates the expression of RgtA which upon infection, when glutamate might be scarce, attenuates translation of the glutamate transporter and thereby assists in adaptation of the pathogen to other sources of energy.
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Article is online at http://www.rnajournal.org/cgi/doi/10.1261/rna.067306.118.
- Received May 15, 2018.
- Accepted August 1, 2018.
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