Expression of BfrH, a putative siderophore receptor of Bordetella bronchiseptica, is regulated by iron, Fur1, and the extracellular function sigma factor EcfI.

Iron (Fe) in soluble elemental form is found in the tissues and fluids of animals at concentrations insufficient for sustaining growth of bacteria. Consequently, to promote colonization and persistence, pathogenic bacteria evolved a myriad of scavenging mechanisms to acquire Fe from the host. Bordetella bronchiseptica, the etiologic agent of upper respiratory infections in a wide range of mammalian hosts, expresses a number of proteins for acquisition of Fe. Using proteomic and genomic approaches, three Fe-regulated genes were identified in the bordetellae: bfrH, a gene encoding a putative siderophore receptor; ecfI, a gene encoding a putative extracellular function (ECF) sigma factor; and ecfR, a gene encoding a putative EcfI modulator. All three genes are highly conserved in B. pertussis, B. parapertussis, and B. avium. Genetic analysis revealed that transcription of bfrH was coregulated by ecfI, ecfR, and fur1, one of two fur homologues carried by B. bronchiseptica. Overexpression of ecfI decoupled bfrH from Fe-dependent regulation. In contrast, expression of bfrH was significantly reduced in an ecfI deletion mutant. Deletion of ecfR, however, was correlated with a significant increase in expression of bfrH, due in part to a cis-acting nucleotide sequence within ecfR which likely reduces the frequency of readthrough transcription of bfrH from the Fe-dependent ecfIR promoter. Using a murine competition infection model, bfrH was shown to be required for optimal virulence of B. bronchiseptica. These experiments revealed ecfIR-bfrH as a locus encoding a new member of the growing family of Fe and ECF sigma factor-modulated regulons in the bordetellae.