Iron Acquisition and Metabolism as a Promising Target for Antimicrobials (Bottlenecks and Opportunities): Where Do We Stand?

Stelitano, Giovanni; Cocorullo, Mario; Mori, Matteo; Villa, Stefania; Meneghetti, Fiorella; Chiarelli, Laurent R.

doi:10.3390/ijms24076181

Cited by 7 publications

(7 citation statements)

References 121 publications

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“…An emerging strategy to kill bacteria is targeting virulence factors. Indeed, inhibition of non-essential pathways involved in bacterial growth or disruption of the processes involved in the pathogenesis applies a low evolutive selection compared to targeting essential genes [127]. For instance, targeting the biosynthesis of mycobacterial siderophores, known as mycobactins and involved in host iron scavenging, is an exquisite strategy attracting different study groups of Mtb.…”

Section: Targeting Virulence Factorsmentioning

confidence: 99%

“…Iron Fe 3+ and gallium Ga 3+ have indeed similar features; indeed, gallium-based molecules have been successfully applied to fight other bacterial infections [132][133][134]. Gallium has the ability to disrupt the iron acquisition systems and to impair the function of heme-utilizing hemeproteins; hence, it perturbates multiple aspects of pathogens [127]. Gallium protoporphyrin (GaPP, Table 9), gallium mesoporphyrin (GaMP), and gallium nitrate (Ga(NO3)3) have been tested against Mab in a depleted-iron medium.…”

Section: Targeting Virulence Factorsmentioning

confidence: 99%

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Moles of Molecules against Mycobacterium abscessus: A Review of Current Research

Cocorullo,

Bettoni,

Foiadelli

et al. 2023

Future Pharmacology

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Mycobacterium abscessus is an emerging opportunistic pathogen that infects mainly the respiratory tract of individuals with pre-existing clinical pictures. In recent years, the incidence of infections of this microorganism has risen, in particular in patients with cystic fibrosis, leading to an exacerbation of their conditions. The actual therapeutic regimen has low efficacy and is extended for long periods since it is mainly based on a combination of repurposed drugs, generally from treatments of Mycobacterium tuberculosis infections. For this reason, it is necessary to develop new drugs or alternative strategies in order to improve the efficacy and shorten the time of treatments. This review aims to give an overview of drugs in the pre-clinical and clinical phases of evaluation against M. abscessus and the molecules that have been in development for the past five years in the early drug-discovery phase.

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Section: Targeting Virulence Factorsmentioning

confidence: 99%

Section: Targeting Virulence Factorsmentioning

confidence: 99%

Moles of Molecules against Mycobacterium abscessus: A Review of Current Research

Cocorullo,

Bettoni,

Foiadelli

et al. 2023

Future Pharmacology

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“…Here we exploited an integrated in silico/in vitro approach to identify, for the first time, non-peptidic ligands able to interfere with the binding of Hb to IsdB, with the far-reaching aim of developing protein–protein interaction (PPI) inhibitors able to interfere with hemic iron acquisition by S. aureus 27 . Our approach consists of targeting free Hb, which is released from erythrocytes in the bloodstream by the action of bacterial hemolysins, with small molecules unable to cross the red blood cell membrane, and therefore without interfering with intracellular Hb.…”

Section: Introductionmentioning

confidence: 99%

Identification of small molecules affecting the interaction between human hemoglobin and Staphylococcus aureus IsdB hemophore

Cozzi,

Failla,

Gianquinto

et al. 2024

Sci Rep

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Human hemoglobin (Hb) is the preferred iron source of Staphylococcus aureus. This pathogenic bacterium exploits a sophisticated protein machinery called Iron-regulated surface determinant (Isd) system to bind Hb, extract and internalize heme, and finally degrade it to complete iron acquisition. IsdB, the surface exposed Hb receptor, is a proven virulence factor of S. aureus and the inhibition of its interaction with Hb can be pursued as a strategy to develop new classes of antimicrobials. To identify small molecules able to disrupt IsdB:Hb protein–protein interactions (PPIs), we carried out a structure-based virtual screening campaign and developed an ad hoc immunoassay to screen the retrieved set of commercially available compounds. Saturation-transfer difference (STD) NMR was applied to verify specific interactions of a sub-set of molecules, chosen based on their efficacy in reducing the amount of Hb bound to IsdB. Among molecules for which direct binding was verified, the best hit was submitted to ITC analysis to measure the binding affinity to Hb, which was found to be in the low micromolar range. The results demonstrate the viability of the proposed in silico/in vitro experimental pipeline to discover and test IsdB:Hb PPI inhibitors. The identified lead compound will be the starting point for future SAR and molecule optimization campaigns.

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“…In mammals, it is mainly bound in its oxidized form (Fe 3+ ) to iron-storage or transport proteins, due to its toxicity and low solubility [4,5]. As pathogenic microorganisms need this essential metal to ensure their survival and sustain their pathogenicity, most higher organisms, including humans, have evolved an innate defensive strategy based on the restriction of the amount of available extracellular iron [6][7][8][9]. Nevertheless, many pathogens, mainly bacteria and fungi, have developed efficient countermeasures to compensate for this effect [10][11][12].…”

Section: Introductionmentioning

confidence: 99%

“…Nevertheless, many pathogens, mainly bacteria and fungi, have developed efficient countermeasures to compensate for this effect [10][11][12]. In mycobacteria, one of the most important iron acquisition pathways relies on the production of siderophores [3,6,13]. These low-molecular-weight chelators, known as carboxymycobactins (cMBTs) and mycobactins (MBTs), share a common core but differ in their terminal portion, leading to different solubility and functional properties.…”

Section: Introductionmentioning

confidence: 99%

Structural Study of a New MbtI-Inhibitor Complex: Towards an Optimized Model for Structure-Based Drug Discovery

Mori,

Villa,

Chiarelli

et al. 2023

Pharmaceuticals

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MbtI from Mycobacterium tuberculosis (Mtb) is a Mg2+-dependent salicylate synthase, belonging to the chorismate-utilizing enzyme (CUE) family. As a fundamental player in iron acquisition, MbtI promotes the survival and pathogenicity of Mtb in the infected host. Hence, it has emerged in the last decade as an innovative, potential target for the anti-virulence therapy of tuberculosis. In this context, 5-phenylfuran-2-carboxylic acids have been identified as potent MbtI inhibitors. The first co-crystal structure of MbtI in complex with a member of this class was described in 2020, showing the enzyme adopting an open configuration. Due to the high mobility of the loop adjacent to the binding pocket, large portions of the amino acid chain were not defined in the electron density map, hindering computational efforts aimed at structure-driven ligand optimization. Herein, we report a new, high-resolution co-crystal structure of MbtI with a furan-based derivative, in which the closed configuration of the enzyme allowed tracing the entirety of the active site pocket in the presence of the bound inhibitor. Moreover, we describe a new crystal structure of MbtI in open conformation and in complex with the known inhibitor methyl-AMT, suggesting that in vitro potency is not related to the observed enzyme conformation. These findings will prove fundamental to enhance the potency of this series via rational structure-based drug-design approaches.

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Iron Acquisition and Metabolism as a Promising Target for Antimicrobials (Bottlenecks and Opportunities): Where Do We Stand?

Cited by 7 publications

References 121 publications

Moles of Molecules against Mycobacterium abscessus: A Review of Current Research

Moles of Molecules against Mycobacterium abscessus: A Review of Current Research

Identification of small molecules affecting the interaction between human hemoglobin and Staphylococcus aureus IsdB hemophore

Structural Study of a New MbtI-Inhibitor Complex: Towards an Optimized Model for Structure-Based Drug Discovery

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