Inhibition of Siderophore Biosynthesis in Mycobacterium tuberculosis with Nucleoside Bisubstrate Analogues: Structure−Activity Relationships of the Nucleobase Domain of 5′-O-[N-(Salicyl)sulfamoyl]adenosine

Neres, João; Labello, Nicholas P.; Somu, Ravindranadh V.; Boshoff, Helena I.; Wilson, Daniel J.; Vannada, Jagadeshwar; Chen, Liqiang; Barry, Clifton E.; Bennett, Eric M.; Aldrich, Courtney C.

doi:10.1021/jm800567v

Cited by 116 publications

(167 citation statements)

References 100 publications

(294 reference statements)

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“…The use of salicyl-AMP analogs initially developed by Quadri and Tan (10) and extended by others (28,40) as inhibitors of M. tuberculosis growth provides a template for targeting the A domains of the MBT megasynthase for drug development. The focus on salicyl-AMP analogs to inhibit the function of MbtA was viable because these analogs were unlikely to inhibit host metabolic processes.…”

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confidence: 99%

Analyses of MbtB, MbtE, and MbtF Suggest Revisions to the Mycobactin Biosynthesis Pathway in Mycobacterium tuberculosis

2012

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The production of mycobactin (MBT) by Mycobacterium tuberculosis is essential for this bacterium to access iron when it is in an infected host. Due to this essential function, there is considerable interest in deciphering the mechanism of MBT assembly, with the goal of targeting select biosynthetic steps for antituberculosis drug development. The proposed scheme for MBT biosynthesis involves assembly of the MBT backbone by a hybrid nonribosomal peptide synthetase (NRPS)/polyketide synthase (PKS) megasynthase followed by the tailoring of this backbone by N 6 acylation of the central l -Lys residue and subsequent N 6 -hydroxylation of the central N 6 -acyl- l -Lys and the terminal caprolactam. A complete testing of this hypothesis has been hindered by the inability to heterologously produce soluble megasynthase components. Here we show that soluble forms of the NRPS components MbtB, MbtE, and MbtF are obtained when these enzymes are coproduced with MbtH. Using these soluble enzymes we determined the amino acid specificity of each adenylation (A) domain. These results suggest that the proposed tailoring enzymes are actually involved in precursor biosynthesis since the A domains of MbtE and MbtF are specific for N 6 -acyl- N 6 -hydroxy- l -Lys and N 6 -hydroxy- l -Lys, respectively. Furthermore, the preference of the A domain of MbtB for l -Thr over l -Ser suggests that the megasynthase produces MBT derivatives with β-methyl oxazoline rings. Since the most prominent form of MBT produced by M. tuberculosis lacks this β-methyl group, a mechanism for demethylation remains to be discovered. These results suggest revisions to the MBT biosynthesis pathway while also identifying new targets for antituberculosis drug development.

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Analyses of MbtB, MbtE, and MbtF Suggest Revisions to the Mycobactin Biosynthesis Pathway in Mycobacterium tuberculosis

2012

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“…Many pathogens, for example, have multiple iron uptake pathways; if one is inhibited, another may or may not compensate. However, recent work demonstrated that Mycobacterium tuberculosis cultures are susceptible to picomolar levels of chemical inhibitors of MbtA, an enzyme catalyzing biosynthesis of the aryl cap of mycobactin siderophores (23)(24)(25). Like Aspergillus sp., mycobacteria have been predicted to depend on variants of the same siderophore for multiple steps in the uptake, internalization, and storage of iron and hence may be especially susceptible to chemical inhibition of mycobactin biosynthesis.…”

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confidence: 99%

Comprehensive Spectroscopic, Steady State, and Transient Kinetic Studies of a Representative Siderophore-associated Flavin Monooxygenase

Mayfield

Frederick

Streit

et al. 2010

Journal of Biological Chemistry

113

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“…Several attempts were made to identify compounds that prevent siderophore synthesis and transport. A salicylsulfamoyl adenosine and other nucleoside bisubstrate analogous were found to prevent the early step of siderophore synthesis of Yersinia and Mycobacterium (Ferreras et al 2005;Miethke and Marahiel 2007;Neres et al 2008).…”

Section: Depletion Of Ironmentioning

confidence: 99%

Anti-virulence Strategies to Target Bacterial Infections

Mühlen

Dersch

2015

Current Topics in Microbiology and Immunology

133

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Resistance of important bacterial pathogens to common antimicrobial therapies and the emergence of multidrug-resistant bacteria is increasing at an alarming rate and constitutes one of our greatest challenges in the combat of bacterial infection and accompanied diseases. Given the current shortage of effective drugs, lack of successful prevention measures and only a few new antibiotics in the clinical pipeline demands the development of novel treatment options and alternative antimicrobial therapies. Our increasing understanding of bacterial virulence strategies and the induced molecular pathways of the infectious disease provide novel opportunities to target and interfere with crucial pathogenicity factors or virulence-associated traits of the bacteria while bypassing the evolutionary pressure on the bacterium to develop resistance. In the past decade, numerous new bacterial targets for anti-virulence therapies have been identified, and structure-based tailoring of intervention strategies as well as screening assays for small molecule inhibitors of such pathways were successfully established. In this chapter, we will take a closer look at the bacterial virulence-related factors and processes that present promising targets for antivirulence therapies, recently discovered inhibitory substances and their promises and discuss the challenges and problems that have to be faced.

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Inhibition of Siderophore Biosynthesis in Mycobacterium tuberculosis with Nucleoside Bisubstrate Analogues: Structure−Activity Relationships of the Nucleobase Domain of 5′-O-[N-(Salicyl)sulfamoyl]adenosine

Cited by 116 publications

References 100 publications

Analyses of MbtB, MbtE, and MbtF Suggest Revisions to the Mycobactin Biosynthesis Pathway in Mycobacterium tuberculosis

Analyses of MbtB, MbtE, and MbtF Suggest Revisions to the Mycobactin Biosynthesis Pathway in Mycobacterium tuberculosis

Comprehensive Spectroscopic, Steady State, and Transient Kinetic Studies of a Representative Siderophore-associated Flavin Monooxygenase

Anti-virulence Strategies to Target Bacterial Infections

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