Abstract
The cytoplasmic heme-binding protein PhuS, encoded within the Fur-regulated Pseudomonas heme utilization (phu) operon, has previously been shown to traffic heme to the iron-regulated heme oxygenase (HO). We further investigate the role of PhuS in heme trafficking to HO on disruption of the phuS and hemO genes in a Pseudomonas aeruginosa siderophore-deficient and wild-type background. Previous studies have shown that deletion of hemO prevents the cells from utilizing heme as the sole source of iron. However, disruption of phuS alone resulted in a slow growth phenotype, consistent with its role as a heme-trafficking protein to HO. Furthermore, in contrast to the hemO and hemO/phuS deletion strains, the phuS knockout prematurely produced pyocyanin in the presence of heme. Western blot analysis of PhuS protein levels in the wild-type strain showed that Fur-regulation of the phu operon could be derepressed in the presence of heme. In addition the premature onset of pyocyanin production requires both heme and a functional HO. Suppression of the phenotype on increasing the external heme concentration suggested that the decreased heme-flux through HO results in premature production of pyocyanin. The premature production of pyocyanin was not due to lower intracellular iron levels as a result of decreased heme flux through HO. However, transcriptional analysis of the phuS mutants indicates that the cells are sensing iron deprivation. The present data suggest that PhuS has a dual function in trafficking heme to HO, and in directly or indirectly sensing and maintaining iron and heme homeostasis.
Highlights
Fore evolved multiple mechanisms to obtain iron from the ironand heme-containing proteins of the host
Plasmids pEX18p pFlp2 pPS856 pFTC1 pEX18p-⌬phuS::gentamycin antibiotic marker (Gm) pEX18p-⌬phuS::tet phuS mutant containing ISlacZ/hah transposon insertion, derived from MAPO1 pvd-2 derivative of PAO1 strain lacking pyoverdin production Pyochelin-deficient derivative of CDC-5 strain, obtained by ethylmethanesulfonate mutagenesis Chromosomal knockout of iron-regulated heme oxygenase gene, hemO derived from IA614 Chromosomal knockout of phuS derived from IA614 Chromosomal knockout of phuS derived from IR1648
PhuS Is Required for Efficient Heme Utilization in P. aeruginosa—It has previously been shown in vitro that PhuS functions to traffic heme to heme oxygenase (HO)
Summary
Plasmids pEX18p pFlp pPS856 pFTC1 pEX18p-⌬phuS::Gm pEX18p-⌬phuS::tet phuS mutant containing ISlacZ/hah transposon insertion, derived from MAPO1 pvd-2 derivative of PAO1 strain lacking pyoverdin production Pyochelin-deficient derivative of CDC-5 strain, obtained by ethylmethanesulfonate mutagenesis Chromosomal knockout of iron-regulated heme oxygenase gene, hemO derived from IA614 Chromosomal knockout of phuS derived from IA614 Chromosomal knockout of phuS derived from IR1648. This mutant lacks both pigA and phuS along with the siderophores pyochelin and pyoverdin. The findings presented provide important insight into the critical role of heme in maintaining P. aeruginosa iron homeostasis
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