Utilization of microbial iron assimilation processes for the development of new antibiotics and inspiration for the design of new anticancer agents

Miller, Marvin J.; Zhu, Helen He; Xu, Yang; Wu, Chao; Walz, Andrew J.; Vergne, Anne; Roosenberg, John M.; Moraski, Garrett C.; Minnick, Albert A.; McKee-Dolence, Julia; Hu, Jinqiang; Fennell, Kelley A.; Dolence, E. Kurt; Li, Dong; Franzblau, Scott G.; Malouin, François; Möllmann, Ute

doi:10.1007/s10534-008-9185-0

Cited by 82 publications

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“…The other iron-regulated protein bands Synthetic vanchrobactin and vanchrobactin analogues use FvtA as the sole route of entry. As mentioned above, the route of entry of Fe-siderophore complexes into bacterial cells can be exploited by using a Trojan horse strategy for introduction of modified molecules with antimicrobial activity (24,26). In a previous study, a series of vanchrobactin analogues were found to promote growth of V. anguillarum (RV22 and 775 strains) under iron-deficient conditions, indicating that they are indeed internalized and utilized as siderophores (37).…”

Section: Resultsmentioning

confidence: 99%

“…To facilitate penetration of antibiotics into bacterial cells, the so-called "Trojan horse strategy" can be employed, where antimicrobial drugs are transported across the bacterial membranes by exploiting the iron uptake pathways (7,8,24,26,34,38). The vanchrobactin chemical structure was recently determined, and a series of vanchrobactin analogues which have functionality (an amino group) appropriate for use as antibiotic vectors and keep their siderophore activity have been synthesized and evaluated (36, 37).…”

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confidence: 99%

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FvtA Is the Receptor for the Siderophore Vanchrobactin inVibrio anguillarum: Utility as a Route of Entry for Vanchrobactin Analogues

Balado

Osorio

Lemos

2009

Appl Environ Microbiol

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Some strains of Vibrio anguillarum, the causative agent of vibriosis in a variety of marine animals, produce a catechol-type siderophore named vanchrobactin. The biosynthetic pathway and regulation of vanchrobactin are quite well understood. However, aspects concerning its entry into the cell have remained uncharacterized. In the present study we characterized two genes, fvtA and orf13, encoding potential TonB-dependent ferricvanchrobactin receptors in serotype O2 V. anguillarum strain RV22. We found that an fvtA mutant was defective for growth under iron limitation conditions and for utilization of vanchrobactin, suggesting that fvtA encodes the vanchrobactin receptor of V. anguillarum. Interestingly, an orf13 mutant was not significantly affected, and results of reverse transcriptase PCR, as well as analysis of outer membrane proteins by sodium dodecyl sulfate-polyacrylamide gel electrophoresis, suggested that this gene is not expressed. Furthermore, fatA, a plasmid gene coding for the anguibactin receptor in plasmid pJM1-harboring strains, is also present in the chromosome of RV22, although it is inactivated by insertion of transposases. In addition, we found that FvtA is the route of entry for vanchrobactin analogues, and there is evidence that it recognizes primarily the catechol-iron center. These analogues are potential candidate vectors for a Trojan horse strategy aimed at generating antimicrobial compounds exploiting the same route of entry for native siderophores. We found that fvtA and vanchrobactin biosynthesis genes are ubiquitous in both vanchrobactin-and anguibactin-producing V. anguillarum strains, which reinforces the utility of the vanchrobactin route of entry for the design of future strategies for the control of vibriosis.Vibrio anguillarum strains possess an array of specific virulence factors that enable them to cause a hemorrhagic septicemia called vibriosis in a variety of marine animals (41). There are more than 20 recognized serotypes, but serotypes O1 and O2 are the serotypes predominantly implicated in vibriosis outbreaks (43). Although the virulence mechanisms of V. anguillarum are not fully understood, it is known that the ability to scavenge iron through utilization of siderophores contributes significantly to the virulence of this bacterium (11,20,45). Currently, two clearly different siderophore-mediated iron uptake systems in V. anguillarum are known. One of them is the vanchrobactin-mediated system encoded by a chromosomal gene cluster. The chemical structure of the siderophore in this system and its biosynthesis and regulation pathways were recently established (3,4,36). The other system is a plasmid pJM1-encoded system called the anguibactin system that is found only in pJM1-containing serotype O1 strains (10, 40), whose synthesis requires additional chromosomal genes that are also involved in vanchrobactin production (1, 4).Uptake of ferric iron-siderophore complexes into the cell requires a specific outer membrane (OM) receptor protein connected to a TonB-ExbB-ExbD complex ...

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Section: Resultsmentioning

confidence: 99%

mentioning

confidence: 99%

FvtA Is the Receptor for the Siderophore Vanchrobactin inVibrio anguillarum: Utility as a Route of Entry for Vanchrobactin Analogues

Balado

Osorio

Lemos

2009

Appl Environ Microbiol

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“…At present, this approach has been utilized to design antibiotics capable of overcoming resistance due to membrane penetration by delivering the lethal moiety to the site of action [9]. For example, the conjugation of artemisinin to mycobactin siderophore yielded a compound with potent antimycobacterial activity [10].…”

Section: Introductionmentioning

confidence: 99%

Humanized Exposures of Cefiderocol, a Siderophore Cephalosporin, Display Sustained in vivo Activity against Siderophore-Resistant <b><i>Pseudomonas aeruginosa</i></b>

2018

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We evaluated the in vivo efficacy of humanized exposures of cefiderocol, a novel siderophore cephalosporin, against a test panel of P. aeruginosa (PSA) previously shown to develop resistance to 2 preclinical candidate siderophores (MB-1 and SMC-3176). In the thigh infection model, the PSA bacterial density in untreated controls grew from 5.54 ± 0.23 to 8.68 ± 0.57 log₁₀ CFU over 24 h. The humanized cefiderocol exposure resulted in >1 log₁₀ CFU reduction in all 8 isolates, while MB-1 and SMC-3176 exhibited variable activity similar to that previously reported. Humanized exposures of cefepime and levofloxacin, acting as positive antimicrobial controls displayed activity consistent with that of the bacterial phenotypic susceptibility profiles. Cefiderocol manifested in vivo efficacy against all PSA isolates including those resistant to cefepime and levofloxacin in contrast to its predecessor siderophore compounds. These preclinical data are supportive of further evaluation of cefiderocol in the treatment of P. aeruginosa.

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“…Unlike classical antibiotics, which target a specific reaction or process, metals and metaloorganic compounds often affect several different groups of biomolecules, and therefore, development of resistance is unlikely, which makes these compounds attractive as antibacterial agents (25,39). While classical antibiotics are less efficient against bacterial biofilms than planktonic cells, there is evidence that this is not the case for metal ions (24).…”

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confidence: 99%

The Antibacterial Activity of Ga³⁺Is Influenced by Ligand Complexation as Well as the Bacterial Carbon Source

Rzhepishevska

Ekstrand‐Hammarström

Popp

et al. 2011

Antimicrob Agents Chemother

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Gallium ions have previously been shown to exhibit antibacterial and antibiofilm properties. In this study, we report differential bactericidal activities of two gallium complexes, gallium desferrioxamine B (Ga-DFOB) and gallium citrate (Ga-Cit). Modeling of gallium speciation in growth medium showed that DFOB and citrate both can prevent precipitation of Ga(OH) 3 , but some precipitation can occur above pH 7 with citrate. Despite this, Ga-Cit 90% inhibitory concentrations (IC 90 ) were lower than those of Ga-DFOB for clinical isolates of Pseudomonas aeruginosa and several reference strains of other bacterial species. Treatment with Ga compounds mitigated damage inflicted on murine J774 macrophage-like cells infected with P. aeruginosa PAO1. Again, Ga-Cit showed more potent mitigation than did Ga-DFOB. Ga was also taken up more efficiently by P. aeruginosa in the form of Ga-Cit than in the form of Ga-DFOB. Neither Ga-Cit nor Ga-DFOB was toxic to several human cell lines tested, and no proinflammatory activity was detected in human lung epithelial cells after exposure in vitro. Metabolomic analysis was used to delineate the effects of Ga-Cit on the bacterial cell. Exposure to Ga resulted in lower concentrations of glutamate, a key metabolite for P. aeruginosa, and of many amino acids, indicating that Ga affects various biosynthesis pathways. An altered protein expression profile in the presence of Ga-Cit suggested that some compensatory mechanisms were activated in the bacterium. Furthermore, the antibacterial effect of Ga was shown to vary depending on the carbon source, which has importance in the context of medical applications of gallium.

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Utilization of microbial iron assimilation processes for the development of new antibiotics and inspiration for the design of new anticancer agents

Cited by 82 publications

References 77 publications

FvtA Is the Receptor for the Siderophore Vanchrobactin inVibrio anguillarum: Utility as a Route of Entry for Vanchrobactin Analogues

FvtA Is the Receptor for the Siderophore Vanchrobactin inVibrio anguillarum: Utility as a Route of Entry for Vanchrobactin Analogues

Humanized Exposures of Cefiderocol, a Siderophore Cephalosporin, Display Sustained in vivo Activity against Siderophore-Resistant <b><i>Pseudomonas aeruginosa</i></b>

The Antibacterial Activity of Ga³⁺Is Influenced by Ligand Complexation as Well as the Bacterial Carbon Source

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Utilization of microbial iron assimilation processes for the development of new antibiotics and inspiration for the design of new anticancer agents

Cited by 82 publications

References 77 publications

FvtA Is the Receptor for the Siderophore Vanchrobactin inVibrio anguillarum: Utility as a Route of Entry for Vanchrobactin Analogues

FvtA Is the Receptor for the Siderophore Vanchrobactin inVibrio anguillarum: Utility as a Route of Entry for Vanchrobactin Analogues

Humanized Exposures of Cefiderocol, a Siderophore Cephalosporin, Display Sustained in vivo Activity against Siderophore-Resistant <b><i>Pseudomonas aeruginosa</i></b>

The Antibacterial Activity of Ga3+Is Influenced by Ligand Complexation as Well as the Bacterial Carbon Source

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The Antibacterial Activity of Ga³⁺Is Influenced by Ligand Complexation as Well as the Bacterial Carbon Source