Abstract
Caulobacter species are common residents of soil and aquatic ecosystems, where bioavailable iron is often extremely limited. Like other diderm bacteria, C. crescentus can acquire Fe(III) via outer-membrane TonB-dependent transporters (TBDTs) that recognize and import ferric siderophore complexes. Although C. crescentus is not known to synthesize siderophores, it encodes multiple TBDTs that are transcriptionally regulated by the ferric uptake repressor (Fur), suggesting it acquires iron by scavenging xenosiderophores produced by neighboring microbes. To identify C. crescentus genes required for xenosiderophore utilization, we developed a barcoded transposon screen using ferrioxamine B (FXB), a hydroxamate-family siderophore produced by soil actinomycetes, as a model substrate. This screen identified hiuABC, a conserved, Fur-regulated operon that supports FXB-dependent iron acquisition. We provide evidence that hiuA encodes the primary TBDT responsible for uptake of ferrioxamines and ferrichrome (FC), structurally distinct members of the hydroxamate siderophore family. hiuB encodes a PepSY-domain protein with structural similarity to Pseudomonas aeruginosa FoxB, a known periplasmic ferri-siderophore reductase. hiuC encodes a small, hypothetical membrane protein predicted to form a functional complex with HiuB in the inner membrane. Both hiuB and hiuC are required for utilization of FXB and ferrioxamine E (FXE), indicating a shared role in iron acquisition from ferrioxamines. Surprisingly, utilization of FC as an iron source required hiuB but not hiuC, suggesting a substrate-specific role for HiuC in ferri-siderophore processing. We conclude that the conserved hiuABC operon encodes a set of proteins that enable bacteria to acquire iron from structurally diverse hydroxamate-family siderophores.