Fluorescently-Labeled Ferrichrome Analogs as Probes for Receptor-Mediated, Microbial Iron Uptake

Abstract

Biomimetic analogs 1 of the microbial siderophore (iron carrier) ferrichrome were labeled with a fluorescent marker at a site which does not interfere with iron binding or receptor recognition to provide iron(III) carriers 5 and 10 (Figure 1). These carriers were built from a tetrahedral carbon as an anchor which was symmetrically extended by three converging iron-binding chains and a single, exogenous anthracenyl residue. Carriers 5 varied in the nature of the amino acids (G = glycyl, A = alanyl and L = leucyl) linking the anchor with the iron-binding hydroxamate groups, while the alanyl derivative 10A differed from 5A in the spacer between the anthracenyl label and the anchor. Examination of these binders by 1H NMR confirmed that their conformations were analogous to those of the nonlabeled parent compounds. Titration experiments using UV/vis and fluorescence spectroscopy demonstrated the quenching of these compounds' fluorescence upon iron(III) loading and its recovery upon iron(III)'s release to a competing chelator. The quenching process fits the Perrin model for static quenching and was more efficient in derivatives 5, where the label could approach the iron-binding domain, than in derivative 10A, where the label's approach was prohibited. These data are in compliance with an intramolecular quenching process. In vivo examination of the labeled derivatives 5 with Pseudomonas putida as the indicator organism established that their behavior parallels that of the nonlabeled analogs 1, with the added benefit of signaling microbial activity by fluorescence emission. Thus incubation of P. putida with iron(III)-loaded (and therefore nonfluorescent) 5G caused buildup of the label's fluorescence in the culture medium. These observations provide direct evidence for a shuttle-mechanism of iron delivery where the fluorescent, iron-unloaded carrier is released to the medium. Inhibition of both phenomena by natural ferrichrome or NaN3 demonstrates the involvement of the microbial ferrichrome receptor and transport systems, respectively. On the other hand, 5A induced only modest iron(III) uptake by P. putida and failed to generate fluorescence in the culture medium, concurring with its action as an inhibitor. The fact that two strains of different Pseudomonas species did not respond to the ferrichrome analog 5G illustrates the specificity of these compounds. The performance of these carriers as structural and functional probes, paired with their high species specificity, encourage their consideration as diagnostic tools for the detection and identification of pathogenic bacteria and fungi.