Abstract
In Escherichia coli, the outer membrane protein FepA is a receptor for the siderophore complex ferric enterobactin and for colicins B and D. To identify protein domains important for FepA activity, the effects of deletion and linker insertion mutations on receptor structure and function were examined. In-frame internal deletion mutations removing sequences encoding up to 304 amino acid residues resulted in functionally defective FepA polypeptides, although most were translocated efficiently to the outer membrane. One exception, a derivative lacking 87 internal amino acid residues near the N terminus, showed an inability to transport ferric enterobactin but retained limited colicin receptor function. Analysis of cells carrying 3'-terminal fepA deletion mutations suggested that residues within the C terminus of FepA may be involved in secretion and proper translocation of the protein to the outer membrane. Introduction of the peptide Leu-Glu after FepA residues 55, 142, or 324 severely impaired receptor function for all three ligands, while the same insertion after residues 339 or 359 had virtually no detrimental effect on FepA function. Foreign peptides inserted after residues 204 or 635 restricted colicin B and D function only, leaving ferric enterobactin transport ability at near wild-type levels. The results presented in this study have identified key regions of FepA potentially involved in receptor function and demonstrate the presence of both shared and unique ligand-responsive domains.
Highlights
From the Department Missouri 65212 of Molecular Microbiology and Immunology, School of Medicine, University of Missouri, Columbia, In Escherichia coli, the outer membrane protein
Inframe internal deletion mutations removing sequences encoding up to 304 amino acid residues resulted in functionally defective FepA polypeptides, most were translocated efficiently to the outer membrane
The results presented in this study have identified key regions of FepA potentially involved in receptor function and demonstrate the presence of both shared and unique ligand-responsive domains
Summary
Reports of the ability of ferric enterobactin to protect cells against the effects of colicin B [16] suggest that siderophore binding may sterically hinder colicin interaction with FepA or that reduced expression of the receptor as a result of iron repletion increases resistance to the toxin. A fepA mutant has been described for which ferric enterobactin transport capability was retained, yet colicins B and D were ineffective still bound to the cell surface [17] These results suggest the presence of ligand-specific FepA domains which are not necessarily exposed at the cell surface. We seek to define the surface-associated ligand-binding domains of FepA, as well as domains required for internalization and subsequent activity of the ligands These include FepA regions which may physically interact with TonB or other accessory molecules in the periplasm or cytoplasmic membrane, including ExbB or the other Fep transport components.
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