Abstract
Pyoverdine (PVDI) has been reported to act both as a siderophore for scavenging iron (a key nutrient) and a signaling molecule for the expression of virulence factors. This compound is itself part of a core set of virulence factors produced by Pseudomonas aeruginosa during infections. Once secreted into the bacterial environment and having scavenged ferric iron, PVDI-Fe3+ is taken back into the P. aeruginosa periplasm via the outer membrane transporters FpvAI and FpvB. Iron release from PVDI in the bacterial periplasm involves numerous proteins encoded by the fpvGHJKCDEF genes and a mechanism of iron reduction. Here, we investigated the global interacting network between these various proteins using systematic bacterial two-hybrid screening. We deciphered a network of five interacting proteins composed of two inner-membrane proteins, FpvG (iron reductase) and FpvH (unknown function), and three periplasmic proteins, FpvJ (unknown function), FpvF (periplasmic PVDI-binding protein), and FpvC (iron periplasmic-binding protein). This interacting network strongly suggests the existence of a large protein machinery composed of these five proteins, all playing a role in iron acquisition by PVDI. Furthermore, we discovered an interaction between the periplasmic siderophore binding protein FpvF and the PvdRT-OpmQ efflux pump, also suggesting a role for FpvF in apo-PVDI recycling and secretion after iron delivery. These results highlight a multi-protein complex that drives iron release from PVDI in the periplasm of P. aeruginosa.
Highlights
Pyoverdine (PVDI) has been reported to act both as a siderophore for scavenging iron and a signaling molecule for the expression of virulence factors
P. aeruginosa strains produce three distinct pyoverdine types (PVDI, PVDII and PVDIII) each characterized by a different peptide chain[15] and PVDI is the siderophore produced by P. aeruginosa PAO1
Sequence alignment of FpvC revealed that this protein belongs to a group of metal-binding periplasmic proteins[25], and previous in vitro studies of PVDI-Fe dissociation in the presence of DTT showed that FpvC can apparently bind ferrous iron after the reduction step and its dissociation from PVDI28
Summary
Pyoverdine (PVDI) has been reported to act both as a siderophore for scavenging iron (a key nutrient) and a signaling molecule for the expression of virulence factors. We discovered an interaction between the periplasmic siderophore binding protein FpvF and the PvdRT-OpmQ efflux pump, suggesting a role for FpvF in apo-PVDI recycling and secretion after iron delivery. These results highlight a multi-protein complex that drives iron release from PVDI in the periplasm of P. aeruginosa. Pyoverdines are reported to have a dual role during infection They are used as a siderophore by P. aeruginosa to scavenge iron from the host proteins[5,8] and acts as a signaling molecule for the production of two major virulence factors, exotoxin A and the endo-proteinase PrpL3,9. Our study has allowed unprecedented deciphering of the interacting network of the various proteins involved in Fe3+ release from PVDI in the periplasm of P. aeruginosa, linking both membrane and periplasmic proteins
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