Compounds containing 2-substituted imidazole ring for treatment against human African trypanosomiasis

A series of compounds containing 2-substituted imidazoles has been synthesized from imidazole and tested for its biological activity against human African trypanosomiasis (HAT). The 2-substituted 5-nitroimidazoles such as fexinidazole (7a) and 1-[4-(1-methyl-5-nitro-1H-imidazol-2-ylmethoxy)-pyridin-2-yl-piperazine (9e) exhibited potent activity against T. brucei in vitro with low cytotoxicity and good solubility. The presence of the NO₂ group at the 5-position of the imidazole ring in 2-substituted imidazoles is the crucial factor to inhibit T. brucei.     

Synthesis and solid-state structure of magnesium and calcium imidazole complexes

Three octahedral complexes built from N-alkylsubstituted imidazoles and magnesium as well as calcium chloride are reported. The obtained solid-state structures differ significantly from each other, depending on the size of the metal ion and the substituent on the imidazole. A chloro-bridged structure is found in the case of tert-butylimidazole, while for the iso-propylimidazole the calcium ion is coordinated by six imidazoles. For the smaller magnesium cation, we also found a sixfold coordination, but here only three of the iso-propylimidazoles coordinate to the magnesium, the three other positions are taken by water molecules.     

Synthesis and biological evaluation of novel benzo[c][1,2,5]thiadiazol-5-yl and thieno[3,2-c]- pyridin-2-yl imidazole derivatives as ALK5 inhibitors

Transforming growth factor (TGF-β), a key mediator of tumor growth and metastasis, has been recognized as an important cancer drug target. A series of benzo[c][1,2,5]thiadiazol-5-yl imidazoles (14a–g) and thieno[3,2-c]-pyridin-2-yl imidazoles (20a–g) were designed, synthesized, and evaluated for their activin receptor-like kinase 5 (ALK5) activities. Among these compounds, 14c showed the highest activity (IC₅₀ = 0.008 μM) against ALK5 kinase, which was 16.1-fold and 1.8-fold higher than those of positive control compounds LY-2157299 (IC₅₀ = 0.129 μM) and EW-7197 (IC₅₀ = 0.014 μM), respectively. Compound 14g (350) showed the highest selectivity index of ALK5 against p38α MAP kinase, which was significantly higher than that of positive control compounds LY-2157299 (4) and EW-7197 (211). The inhibitory effects of compound 14c on TGF-β-induced Smad signaling and cell motility were studied in SPC-A1, HepG2 and HUVEC cells using western blot analysis and wound healing assay. ADMET prediction analysis showed that compounds 14c and 14g had good pharmacokinetics and drug-likeness behaviors.     

The metabolic response in fish to mildly elevated water temperature relates to species-dependent muscular concentrations of imidazole compounds and free amino acids

Fish species show distinct differences in their muscular concentrations of imidazoles and free amino acids (FAA). This study was conducted to investigate whether metabolic response to mildly elevated water temperature (MEWT) relates to species-dependent muscular concentrations of imidazoles and FAA. Thirteen carp and 17 Nile tilapia, housed one per aquarium, were randomly assigned to either acclimation (25 °C) or MEWT (30 °C) for 14 days. Main muscular concentrations were histidine (HIS; P<0.001) in carp versus N-α-acetylhistidine (NAH; P<0.001) and taurine (TAU; P=0.001) in tilapia. Although the sum of imidazole (HIS+NAH) and TAU in muscle remained constant over species and temperatures (P>0.05), (NAH+HIS)/TAU ratio was markedly higher in carp versus tilapia, and decreased with MEWT only in carp (P<0.05). Many of the muscular FAA concentrations were higher in carp than in tilapia (P<0.05). Plasma acylcarnitine profile suggested a higher use of AA and fatty acids in carp metabolism (P<0.05). On the contrary, the concentration of 3-hydroxyisovalerylcarnitine, a sink of leucine catabolism, (P=0.009) pointed to avoidance of leucine use in tilapia metabolism. Despite a further increase of plasma longer-chain acylcarnitines in tilapia at MEWT (P=0.009), their corresponding beta-oxidation products (3-hydroxy-longer-chain acylcarnitines) remained constant. Together with higher plasma non-esterified fatty acids (NEFA) in carp (P=0.001), the latter shows that carp, being a fatter fish, more readily mobilises fat than tilapia at MEWT, which coincides with more intensive muscular mobilization of imidazoles. This study demonstrates that fish species differ in their metabolic response to MEWT, which is associated with species-dependent changes in muscle imidazole to taurine ratio.     

Expression of oxidored nitro domain-containing protein 1(NOR1) impairs nasopharyngeal carcinoma cells adaptation to hypoxia and inhibits PDK1 expression

Drug repositioning has been considered a promising approach to discover novel treatments against neglected diseases. Among the major protozoan diseases, leishmaniasis remains a public health threat with few therapeutic alternatives, affecting 12 million people in 98 countries. In this study, we report the in vitro antileishmanial activity of the imidazole drugs clotrimazole, and for the first time in literature, econazole and bifonazole and their potential action to affect the regulation of reactive oxygen species (ROS) of the parasites. The lethal action of the imidazoles was investigated using spectrofluorimetric techniques to detect ROS content, plasma membrane permeability, and mitochondrial membrane potential. The imidazoles showed activity against L. (L.) infantum chagasi promastigotes with IC₅₀ values in a range of 2–8 μM; econazole was also effective against Leishmania intracellular amastigotes, with an IC₅₀ value of 11 μM, a similar in vitro effectiveness to miltefosine. Leishmania promastigotes rapidly up-regulated the ROS release after incubation with the imidazoles, but econazole showed a marked increase in ROS content of approximately 1,900 % higher than untreated parasites. When using SYTOX^® Green as a fluorescent probe, the imidazoles demonstrated considerable interference in plasma membrane permeability at the early time of incubation; econazole resulted in the higher influx of SYTOX^® Green at 60 min. Despite cellular alterations, no depolarization could be observed to the mitochondrial membrane potential of Leishmania until 60 min. The lethal action of econazole involved strong permeabilization of plasma membrane of promastigotes, with an overloaded ROS content that contributed to the death of parasites. Affecting the ROS regulation of Leishmania via small molecules would be an interesting strategy for new drugs.     

Focus: Zoonotic Disease: New Series of Imidazoles Showed Promising Growth Inhibitory and Curative Potential Against Trypanosoma Infection

The Trypanosoma spp. cause animal and human trypanosomiasis characterized with appreciable health and economic burden mostly in developing nations. There is currently no effective therapy for this parasitic disease, due to poor drug efficacy, drug resistance, and unwanted toxicity, etc. Therefore, new anti-Trypanosoma agents are urgently needed. This study explored new series of imidazoles for anti-Trypanosoma properties in vitro and in vivo. The imidazoles showed moderate to strong and specific action against growth of T. congolense. For example, the efficacy of the imidazole compounds to restrict Trypanosoma growth in vitro was ≥ 12-fold specific towards T. congolense relative to the mammalian cells. Additionally, the in vivo study revealed that the imidazoles exhibited promising anti-Trypanosoma efficacy corroborating the in vitro anti-parasite capacity. In particular, three imidazole compounds (C1, C6, and C8) not only cleared the systemic parasite burden but cured infected rats after no death was recorded. On the other hand, the remaining five imidazole compounds (C2, C3, C4, C5, and C7) drastically reduced the systemic parasite load while extending survival time of the infected rats by 14 days as compared with control. Untreated control died 3 days post-infection, while the rats treated with diminazene aceturate were cured comparable to the results obtained for C1, C6, and C8. In conclusion, this is the first study demonstrating the potential of these new series of imidazoles to clear the systemic parasite burden in infected rats. Furthermore, a high selectivity index of imidazoles towards T. congolense in vitro and the oral LD₅₀ in rats support anti-parasite specific action. Together, findings support the anti-parasitic prospects of the new series of imidazole derivatives.     

2-(6-Phenyl-1H-indazol-3-yl)-1H-benzo[d]imidazoles: Design and synthesis of a potent and isoform selective PKC-ζ inhibitor

The inhibition of PKC-ζ has been proposed to be a potential drug target for immune and inflammatory diseases. A series of 2-(6-phenyl-1H indazol-3-yl)-1H-benzo[d]imidazoles with initial high crossover to CDK-2 has been optimized to afford potent and selective inhibitors of protein kinase c-zeta (PKC-ζ). The determination of the crystal structures of key inhibitor:CDK-2 complexes informed the design and analysis of the series. The most selective and potent analog was identified by variation of the aryl substituent at the 6-position of the indazole template to give a 4-NH₂ derivative. The analog displays good selectivity over other PKC isoforms (α, βII, γ, δ, ε, μ, θ, η and ι/λ) and CDK-2, however it displays marginal selectivity against a panel of other kinases (37 profiled).     

Iodo bridged lead(II) compounds of azoimidazoles: Single crystal X-ray structures of [di-iodo-{1-methyl-2-(p-tolylazo)imidazole}lead(II)]n and {1-methyl-3-benzyl-2-(p-tolylazo)imidazolium}m-{tri-iodoplumbate(II)}m

PbI₂ forms iodo-bridged neutral polymer upon reaction with 1-alkyl-2-(arylazo)imidazoles (RaaiR′). The reaction of PbI₂ and dialkyl imidazolium iodides [RaaiR′R″]⁺I⁻ has synthesized {1,3-dialkyl-2-(arylazo)imidazolium}_m-{tri-iodoplumbate(II)}_m. The complexes are characterized by different spectroscopic studies. Iodobridged chelated polymer, [Pb(RaaiR′)I₂]_n, has been established by single crystal X-ray diffraction measurements in one case. Tri-iodoplumbates form iodo bridged anion polymer, which connects [RaaiR′R″]⁺ by hydrogen bonding and are placed in between the pillars of [Pb(μ-I)₆]_n motif.     

Mechanism of charge compensation and impairment of co-operative functions in haemoglobin Tacoma (Arg B12(30)beta leads to Ser).

A difference Fourier synthesis of deoxyhaemoglobin Tacoma minus deoxyhaemoglobin A at 3.5 Å resolution has been calculated. The map shows a large negative peak due to the removal of the guanidinium group of Arg B12(30)β, surrounded by positive and negative peaks indicative of some atoms moving towards, and others away from, the vacated site. Among the latter, the most important is the carboxylate of Glu B8(26)β which is hydrogen-bonded to the guanidinium group of the arginine in haemoglobin A, but swings round its α-β carbon bond towards the imidazoles of histidines G18(116) and 19(117)β in haemoglobin Tacoma. This movement would raise the pK values of the histidines, so that their positive charges compensated for the loss of the arginine. This may explain why haemoglobin Tacoma has the same electrophoretic mobility as haemoglobin A. It is shown that haemoglobin Tacoma has a lower oxygen equilibrium constant K_T and a larger allosteric constant L than haemoglobin A. The lowering of K_T may be due to the loosening of the T structure in haemoglobin Tacoma consequent upon the removal of the hydrogen bonds made by the guanidinium group of Arg B12(30)β at the α₁β₁ contact. Their removal also accounts for the decreased stability of haemoglobin Tacoma. We cannot yet explain its diminished Bohr effect, nor the increase in L.     

Synthesis and biological evaluation of 2-pyridyl-substituted pyrazoles and imidazoles as transforming growth factor-β type 1 receptor kinase inhibitors

A series of 2-pyridyl-substituted pyrazoles (16a–d, 17, 18, and 28a–e) and imidazoles (22 and 23) has been synthesized and evaluated for their ALK5 inhibitory activity in cell-based luciferase reporter assays. Among them, 3-(3-(6-methylpyridin-2-yl)-4-(quinolin-6-yl)-1H-pyrazole-1-carbothioamido)benzamide (28c) showed 96% and 93% inhibition at 0.1 μM in luciferase reporter assays using HaCaT cells transiently transfected with p3TP-luc reporter construct and ARE-luc reporter construct, respectively.     

A rapid method for the analysis of N tau-methylhistidine in human urine

A novel, automated method is described for the determination of N^τ-methylhistidine in human urine. The method uses a modification (H. Nakamura and J. J. Pisano (1976) Arch. Biochem. Biophys.177, 334–335) of the reaction of fluorescamine with amines, which renders it specific for certain imidazoles. Interference due to histidine and histamine is selectively removed by prior reaction with aldehydes. The fluorescence yield for N^τ-methylhistamine is 280, 440, 50, and 1.7, respectively. The concentrations of N^τ-methylhistidine in human urine as determined by this technique correlate well (r = 0.99) with those determined by ion-exchange chromatography. Furthermore, the technique is rapid (6–7 samples/h net throughout), is reproducible (coefficient of variation 1.8%), requires no prior treatment of the sample, and is implemented with widely available equipment.     

Oxidative breakdown and conversion of urocanic acid isomers by hydroxyl radical generating systems

cis-Urocanic acid (cis-UCA), formed from trans-urocanic acid (trans-UCA) by photoisomerization, has been shown to mimic suppressive effects of UV on the immune system. It is our hypothesis that UCA oxidation products in the skin play a role in the process of immunosuppression. Recently, both UCA isomers were found to be good hydroxyl radical scavengers and in this context we investigated the formation of products resulting from the interaction of hydroxyl radicals with UCA. Hydroxyl radicals were generated by (1) UV/H₂O₂ (photooxidation), (2) ferrous ions/H₂O₂ (Fenton oxidation) and (3) cupric ions/ascorbic acid. Oxidation products were identified by spectrometric methods and assessed by reversed-phase HPLC analysis. The photooxidation of UCA was induced by UV-B and UV-C, but not by UV-A radiation. Photooxidation and Fenton oxidation of trans-UCA, as well as of cis-UCA yielded comparable chromatographic patterns of UCA oxidation products. Several of the formed products were identified. The formation of three identified imidazoles was shown in UV-B exposed corneal layer samples, derived from human skin.     

Proton NMR study of coordinated imidazoles in low-spin ferric heme complexes. Assignment of single proton histidine resonance in hemoproteins

The proton signals for the coordinated axial imidazoles in a series of low-spin ferric bis-imidazole complexes with natural porphyrin derivatives have been located and assigned. The methyl signals of several methyl-substituted imidazoles have also been resolved for the mixed ligand complexes of imidazole and cyanide ion. The imidazole spectra for the bis complexes are essentially the same as those reported earlier for synthetic porphyrins, with the hyperfine shifts exhibiting comparable contributions from the dipolar and contract interactions. The contact contribution reflects spin transfer into a vacant imidazole π orbital. The spectra of both the mono- and bis-imidazole complex concur in predicting that only the 2-H and 5CH₂ signals of an axial histidine are likely to resonate clearly outside the diamagnetic 0 to ?10 ppm from TMS region in hemoproteins. However, both the 2-H and 4-H imidazole peaks are found to be too broad to detect in a hemoprotein. Hence, it is suggested that the pair of non-heme, single proton resonances in low-spin met-myoglobin cyanides arise from the non-equivalent methylene protons at the 5-position of the histidyl imidazole. Both the resonance positions and relative linewidths in the model compounds are consistent with the data for this pair of protons in myoglobins. The possible interpretations of the average downfield bias of these signals as well as the magnitude of their spacing, are discussed in terms of the conformation of the proximal histidine relative to the heme group.     

Axial perturbations on the electronic and magnetic properties of ferric porphyrins I. Effect of axial ligand basicity in bis-substituted pyridine complexes of synthetic porphyrins

The proton NMR spectra of the bis-4-substituted pyridinates of ferric tetrapheylporphyrin and octaethylporphyrin complexes have been recorded and analyzed fort he purpose of ascertaining the influence of variable axial lignad basicity on the bonding and magnetic properties of the iron. Under the conditions of slow ligand exhange where the bis stoichiometry can be established, all complexes exist exlusively in the low-spin, $\text{S}\text{=}\text{1}\text{2}$, state. The hyperfine shifts at ?60° C for both the porphyrins and axial ligands are shown to be very sensitive to the basicity of the substituted pyridine, as measured by its pK_a. For the tetraphenylporphyrin complexes, we illustrate that the pattern of the meso-phenyl hyperfine shifts permits a quantitative separation of the contact and dipolar contributions to these shifts. This separation reveals that the shift variations with pyridine pK_a are dominated by changes in the magnetic susceptibility anisotropy (dipolar shift), which decreases markedly upon lowering the pyridine basicity; ESR data support this conclusion in the few samples investigated. However, this trend in magnetic anisotropy with ligand basicity is not valid when comparing pyridines with other ligands such as imidazoles. The important change in the contact shift reflects a decrease in porphyrin → iron π change transfer as the ligand basicity is lowered. A correlation between increase in proton NMR linewidth and magnetic anisotrophy of the iron suggests that electron spin relaxation occurs via a process which couples the same levels that control the magnetic anisotropy.     

Linear free energy relationships predict coordination and π-stacking interactions of small molecules with ferriprotoporphyrin IX

In order to better understand the interaction of antimalarial compounds with ferriprotoporphyrin IX (Fe(III)PPIX), association constants of pyridines, imidazoles, amines and phenolates with Fe(III)PPIX and protoporphyrin IX (PPIX) have been measured spectrophotometrically in 40% (v/v) aq. DMSO at pH 7.4. The pH independent log association constants for coordination of nitrogen donor ligands exhibit a linear free energy relationship (LFER) with the pK_a of the donor atom. Association through π-stacking interactions (log K_π) with PPIX and Fe(III)PPIX increases with the number of π-electrons in the aromatic ring system. These findings indicate that in the aqueous milieu of the malaria parasite digestive vacuole, coordination to the Fe(III) center of the porphyrin is necessarily very weak, while π-stacking interactions will be much stronger. On the other hand, in environments in which proton competition is absent, coordination will dominate, with the most basic donor atoms forming the strongest complexes with Fe(III)PPIX. The lipid nanospheres within the digestive vacuole which are now known to be the location of conversion of Fe(III)PPIX to hemozoin could possibly be such an environment, making both types of interaction relevant to the design of new hemozoin inhibitors.     

A convenient synthesis of phosphine-functionalized N-heterocyclic carbene ligand precursors, structural characterization of their palladium complexes and catalytic application in Suzuki coupling reaction

A series of imidazolium chlorides as ligand precursors, L · HCl (L = (1-R)-(3-diphenylphosphanylethyl)-imidazol-2-ylidene; R = aryl, benzyl, naphthylmethyl), for the phosphine-functionalized N-heterocyclic carbene (NHC), L, were prepared by a convenient synthetic procedure of reacting 1,2-dichloroethane with appropriate N-substituted imidazoles to give (β-chloroethyl)imidazolium chlorides, which were subsequently reacted with HPPh₂ producing L · HCl in good yield. Palladium complexes of L, PdLCl₂ (4), were prepared by a one pot reaction of PdCl₂, sodium acetate, and L · HCl in DMSO. Complexes 4b (R = naphthylmethyl) and 4e (R = m-methoxybenzyl) were characterized by X-ray crystallography. Catalytic studies have shown that the palladium complexes are efficient in Suzuki coupling reactions of aryl bromides with phenylboronic acid.     

Imidazole,imidazolate, and hydroxide complexes of (protoporphyrin IX)iron(III) and its dimethyl ester as model systems for ferric hemoproteins: Electron paramagnetic resonance and electronic spectral study

The EPR and electronic spectral changes upon titration of systems consisting of (protoporphyrin IX)iron(III) chloride (Fe(PPIX)Cl) or its dimethyl ester (Fe-(PPIXDME)Cl) and imidazole derivatives with tetrabutylammonium hydroxide solution have been measured at 77 and 298 °K in various solvents. The EPR and electronic spectra of the melt of Fe(PPIXDME)Cl in imidazole derivatives have been also measured. The imidazole derivatives studied here were imidazole and 4-methyl-, 4-phenyl-, 2-methyl-, 2,4-dimethyl-, 1-methyl-, and 1-acetylimidazole. The spectral changes upon addition of hydroxide were markedly different between the systems containing NH imidazoles (BH), with a dissociable proton, and those containing NR imidazoles (BR), without it. In the former systems, five spectral species were successively formed at 77 °K and were assigned to following complexes: [Fe(P)(BH)₂]⁺, Fe(P)(BH)(B), [Fe(P)(B)₂]^?, Fe(P)(BH)(OH), and [Fe(P)(B)(OH)]^?, where P is PPIX or PPIXDME. In the latter systems, initial complex, [Fe(P)(BR)₂]⁺, was found to be changed to final complex, Fe(P)(BR)(OH), through an intermediate at 77 °K. At 298 °K, both systems were found to react with hydroxide to finally form Fe(P)(OH). The crystal field parameters were evaluated using the EPR g values in low-spin complexes studied here and in hemoproteins. The five regions corresponding to five low-spin complexes could be distinguished in crystal field diagrams.     

Preparation of 1-aryl-2-(benzylthio)-(1,2-dideoxy-d-glycero-β-l-gluco-heptofurano)[1,2-d]-2-imidazolines,and new,acyclic C-nucleosides of the imidazole

The reaction of 1-aryl-(1,2-dideoxy-d-glycero-β-l-gluco-heptofurano)[1,2-d]imidazolidine-2-thiones with benzyl chloride and an equivalent amount of sodium hydrogencarbonate yields 1-aryl-2-(benzylthio)-(1,2-dideoxy-d-glycero-β-l-gluco-heptofurano)[1,2-d]-2-imidazolines (2). If the reaction is carried out in the absence of sodium hydrogencarbonate, the 1-aryl-2-(benzylthio)-4-(d-galacto-pentitol-1-yl)imidazoles are obtained. These compounds are also obtained by acid-catalyzed isomerization of compounds 2.     

Prebiotic adenine synthesis from HCN—Evidence for a newly discovered major pathway

Three new imidazole derivatives have been isolated and characterized from oligomerizing HCN solutions. On the basis of these results as well as the earlier identification of a new precursor to adenine, a new and major pathway leading to the formation of adenine is suggested. The route accounts for the synthesis of adenine-8-carboxamide from cis-diamino-maleonitrile, without requiring an isomerization to the trans configuration or reactions with formamidine. The formation of previously reported imidazoles is also explained.     

Binding of Azole Antibiotics to Staphylococcus aureus Flavohemoglobin Increases Intracellular Oxidative Stress

In this work, we report that flavohemoglobin contributes to the azole susceptibility of Staphylococcus aureus. We first observed that deletion of the flavohemoglobin gene leads to an increase in the viability of imidazole-treated S. aureus cells and that reversion to the wild-type phenotype occurs upon expression of flavohemoglobin from a multicopy plasmid. Further spectroscopic analyses showed that miconazole, the most efficient azole antibiotic against S. aureus, ligates to heme of both oxidized and reduced flavohemoglobin. The binding of miconazole to oxidized flavohemoglobin, with an association constant of 1.7 × 10⁶ M⁻¹, typical of a tight, specific binding equilibrium, results in augmentation of the superoxide production by the enzyme. These results are corroborated by in vivo studies showing that imidazole-treated S. aureus cells expressing flavohemoglobin contain a larger amount of reactive oxygen species. Moreover, it was observed that the survival of miconazole-treated S. aureus internalized by murine macrophages is higher for cells lacking flavohemoglobin. Altogether, the present data revealed that in S. aureus, flavohemoglobin enhances the antimicrobial activity of imidazoles via an increase of intracellular oxidative stress.Staphylococcus aureus is an opportunistic pathogen responsible for a large number of human infections that cause systemic diseases from a mild to life-threatening character. The increasing incidence of methicillin-resistant S. aureus (MRSA) strains observed in the past few years makes S. aureus infections a leading threat to public health, causing more deaths in the United States and Europe than human immunodeficiency virus (AIDS) (11). Like other Gram-positive bacteria, staphylococci are sensitive to imidazoles (27). Imidazoles (such as clotrimazole, miconazole, ketoconazole, and sulconazole) (Fig. ​(Fig.1)1) represent one of the major classes of azole antifungal that are useful in the treatment of infections, including cutaneous and vaginal candidiasis (8). The activity of these antifungal drugs derives primarily from inhibition of the biosynthesis of ergosterol, an essential component of the fungal plasma membrane, at the level of lanosterol 14-alpha demethylase. Furthermore, in fungi and yeast, azole treatment leads to an increase in the endogenous production of reactive oxygen species (ROS) (12, 25). For example, in Candida albicans and Saccharomyces cerevisiae, the miconazole inhibition of cytochrome c oxidase, peroxidase, and catalase has been reported to be responsible for a high level of ROS production (3, 4). It has also been reported that clotrimazole inhibition of Plasmodium falciparum hemoperoxidase leads to ROS accumulation in this protozoan pathogen (26). For S. cerevisiae, C. albicans, and Escherichia coli, the action of imidazoles was also correlated with the inhibition of the nitric oxide (NO) scavenger activity of flavohemoglobin (7).Open in a separate windowFIG. 1.Structures of the azole (imidazole; 1,2,4-triazole) antibiotics investigated.Flavohemoglobins (Hmp) are widespread among bacteria and yeast and contain three domains: C-terminal NAD- and flavin adenine dinucleotide (FAD)-binding domains, which together constitute a ferredoxin-NADP⁺ oxidoreductase-like domain, and an N-terminal globin domain, which harbors a single B-type heme. The high-spin heme contains one axial histidine and binds small molecules like NO, carbon monoxide (CO), and dioxygen (O₂). The heme can also bind bulky aromatic bases, since it is inserted in a large hydrophobic pocket (7). We observed that the binding of imidazoles to S. aureus flavohemoglobin results in an increase in the amount of deleterious reactive oxygen species produced by flavohemoglobin that contributes to the bactericidal effect of azole antibiotics toward S. aureus.