The adjacent ATP-binding protein-encoding genes of the Enterococcus faecalis phosphate-specific transport (pst) locus have non-overlapping cellular functions

The widely conserved pst-phoU operon encodes a low-velocity, high-affinity, ATP-dependent importer for inorganic phosphate (Pi). The pstB gene encodes the ATPase that powers the import of Pi into the cell. In some Firmicutes, including the gastrointestinal commensal and opportunistic pathogen Enterococcus faecalis, the pst-phoU locus contains adjacent pstB genes. In this work, we compared the functionality of E. faecalis pstB1 and pstB2. E. faecalis pstB1 and pstB2 share sequence similarities with verified PstB ATPases from Escherichia coli and Streptococcus pneumoniae and only share ~60% amino acid identity with each other. Deletion of pstB1 was associated with a growth defect in low Pi-containing chemically defined medium (CDM), reduced Pi uptake, and a moderate increase in alkaline phosphatase (AP) activity. Deletion of pstB2 fully inhibited growth in CDM regardless of inorganic phosphorus source but did not hinder growth in rich, undefined medium. The ΔpstB2 mutant also exhibited a significant increase in AP activity that was associated with extracellular Pi accumulation. Overexpression of pstB2 in the pstB1 mutant was sufficient to restore growth in low-Pi CDM, Pi uptake, and AP activity, but this was not recapitulated with overexpression of pstB1 in the ΔpstB2 mutant. Deletion of either pstB paralog increased expression of the tandem paralog, and overexpression of pstB2 in ΔpstB2 reduced pstB1 expression. These results suggest that the E. faecalis pstB2-encoded ATPase is required for Pi import, while the pstB1-encoded ATPase has an accessory role in Pi import that can be duplicated by the presence of excess PstB2.