Analysis of Bordetella pertussis virulence gene regulation by use of transcriptional fusions in Escherichia coli

Abstract

The virulence regulon of Bordetella pertussis includes a trans-acting regulatory locus, bvg, that is required for expression of several virulence factors. The virulence control system also responds to environmental signals. We have reconstructed a bvg-dependent regulatory system in Escherichia coli by using bacteriophage lambda vectors carrying transcriptional fusions to lacZYA. Single-copy lacZYA fusions to the B. pertussis fhaB locus, which encodes the attachment factor filamentous hemagglutinin, were activated nearly 400-fold by pBR322 replicons carrying sequences that included bvg. In contrast, bvg had no effect on the pertussis toxin operon (ptxA-E) promoter in E. coli as measured by ptxA-lacZ expression. Environmental signals that modulate expression of virulence genes in B. pertussis had a pronounced effect on bvg-mediated activation of fhaB-lacZ. MgSO4, nicotinic acid, and low temperature resulted in decreases in beta-galactosidase activities of 175-, 115-, and 45-fold respectively. Sensory transduction and transcriptional activation were tightly coupled, and both required an intact bvg locus as determined by 5' and 3' deletions that eliminated both activities.