The BvgAS Regulon of Bordetella pertussis
Open Access
- 8 November 2017
- journal article
- research article
- Published by American Society for Microbiology in mBio
- Vol. 8 (5), e01526-17
- https://doi.org/10.1128/mbio.01526-17
Abstract
Nearly all virulence factors in Bordetella pertussis are activated by a master two-component system, BvgAS, composed of the sensor kinase BvgS and the response regulator BvgA. When BvgS is active, BvgA is phosphorylated (BvgA~P), and virulence-activated genes ( vag s) are expressed [Bvg(+) mode]. When BvgS is inactive and BvgA is not phosphorylated, virulence-repressed genes ( vrg s) are induced [Bvg(−) mode]. Here, we have used transcriptome sequencing (RNA-seq) and reverse transcription-quantitative PCR (RT-qPCR) to define the BvgAS-dependent regulon of B. pertussis Tohama I. Our analyses reveal more than 550 BvgA-regulated genes, of which 353 are newly identified. BvgA-activated genes include those encoding two-component systems (such as kdpED ), multiple other transcriptional regulators, and the extracytoplasmic function (ECF) sigma factor brpL , which is needed for type 3 secretion system (T3SS) expression, further establishing the importance of BvgA~P as an apex regulator of transcriptional networks promoting virulence. Using in vitro transcription, we demonstrate that the promoter for brpL is directly activated by BvgA~P. BvgA-FeBABE cleavage reactions identify BvgA~P binding sites centered at positions −41.5 and −63.5 in bprL . Most importantly, we show for the first time that genes for multiple and varied metabolic pathways are significantly upregulated in the B. pertussis Bvg(−) mode. These include genes for fatty acid and lipid metabolism, sugar and amino acid transporters, pyruvate dehydrogenase, phenylacetic acid degradation, and the glycolate/glyoxylate utilization pathway. Our results suggest that metabolic changes in the Bvg(−) mode may be participating in bacterial survival, transmission, and/or persistence and identify over 200 new vrg s that can be tested for function. IMPORTANCE Within the past 20 years, outbreaks of whooping cough, caused by Bordetella pertussis , have led to respiratory disease and infant mortalities, despite good vaccination coverage. This is due, at least in part, to the introduction of a less effective acellular vaccine in the 1990s. It is crucial, then, to understand the molecular basis of B. pertussis growth and infection. The two-component system BvgA (response regulator)/BvgS (histidine kinase) is the master regulator of B. pertussis virulence genes. We report here the first RNA-seq analysis of the BvgAS regulon in B. pertussis , revealing that more than 550 genes are regulated by BvgAS. We show that genes for multiple and varied metabolic pathways are highly regulated in the Bvg(−) mode (absence of BvgA phosphorylation). Our results suggest that metabolic changes in the Bvg(−) mode may be participating in bacterial survival, transmission, and/or persistence.Keywords
Funding Information
- HHS | National Institutes of Health
- HHS | National Institutes of Health (1DP2OD007188)
- HHS | National Institutes of Health
- HHS | National Institutes of Health (1DP2OD007188)
- HHS | National Institutes of Health
- HHS | U.S. Food and Drug Administration
- HHS | U.S. Food and Drug Administration
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