Transferrin Binding Protein B and Transferrin Binding Protein A2 Expand the Transferrin Recognition Range of .

The bacterial bipartite transferrin receptor is an iron acquisition system that several important human and animal pathogens require for survival. It consists of the TonB-dependent transporter transferrin binding protein A (TbpA) and the surface lipoprotein transferrin binding protein B (TbpB). Curiously, the Tbps are only found in host-specific pathogens and are themselves host specific, meaning that they will bind to the transferrin of their host species but not to the transferrins of other animal species. While this phenomenon has long been established, neither the steps in the evolutionary process that led to this exquisite adaptation for the host nor the steps that could alter it are known. We sought to gain insight into these processes by studying Tbp specificity in , an economically important pathogen of cattle. A past study showed that whole cells of specifically bind bovine transferrin but not transferrin from sheep and goats, two bovids whose transferrins share 93% amino acid sequence identity with bovine transferrin. To our surprise, we found that can use sheep and goat transferrins as iron sources for growth and that TbpB, but not TbpA, has detectable affinity for sheep and goat transferrins. Furthermore, a third transferrin binding protein found in , TbpA2, also showed affinity for sheep and goat transferrins. Our results suggest that TbpB and TbpA2 may contribute to broadening the host transferrin recognition range of Host-restricted pathogens infect a single host species or a narrow range of host species. , a pathogen that incurs severe economic losses for the cattle industry, infects cattle, sheep, and goats but not other mammals. The transferrin binding proteins, TbpA and TbpB, are thought to be a key iron acquisition system in ; however, despite their importance, TbpA and TbpB were previously shown to be cattle transferrin specific. In our study, we find that TbpB and another little-studied Tbp, TbpA2, bind sheep and goat transferrins, as well as bovine transferrin. Our results suggest that TbpB and TbpA2 may allow for host range expansion and provide a mechanism for how host specificity in Tbp-encoding pathogens can be altered.