The Salicylate-Derived Mycobactin Siderophores of Mycobacterium Tuberculosis Are Essential for Growth in Macrophages

Mycobacterium tuberculosis is an important pathogen of mammals that relies on 2-hydroxyphenyloxazoline-containing siderophore molecules called mycobactins for the acquisition of iron in the restrictive environment of the mammalian macrophage. These compounds have been proposed to be biosynthesized t...

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Bibliographic Details
Published in:Proceedings of the National Academy of Sciences - PNAS 2000-02, Vol.97 (3), p.1252-1257
Main Authors: De Voss, James J., Rutter, Kerry, Schroeder, Benjamin G., Su, Hua, Zhu, YaQi, Barry, Clifton E.
Format: Article
Language:English
Subjects:
Bacteria
Bacterial Proteins - genetics
Bacterial Proteins - physiology
Biological Sciences
Biosynthesis
Cell growth
Enzymes
Gene Deletion
Humans
Infections
Iron
Iron - metabolism
Macrophages
Macrophages - microbiology
mbtB gene
MbtB protein
Microbiology
Molecules
Mycobacterium tuberculosis
Mycobacterium tuberculosis - growth & development
Mycobacterium tuberculosis - pathogenicity
Mycobacterium tuberculosis - physiology
mycobactin
mycobactins
Oxazoles - metabolism
Peptide Synthases - deficiency
Peptide Synthases - genetics
Peptide Synthases - physiology
Salicylates
salicylic acid
Salicylic Acid - metabolism
Serine - metabolism
Siderophores
Siderophores - metabolism
Tumor Cells, Cultured
Virulence
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Summary:Mycobacterium tuberculosis is an important pathogen of mammals that relies on 2-hydroxyphenyloxazoline-containing siderophore molecules called mycobactins for the acquisition of iron in the restrictive environment of the mammalian macrophage. These compounds have been proposed to be biosynthesized through the action of a cluster of genes that include both nonribosomal peptide synthase and polyketide synthase components. One of these genes encodes a protein, MbtB, that putatively couples activated salicylic acid with serine or threonine and then cyclizes this precursor to the phenyloxazoline ring system. We have used gene replacement through homologous recombination to delete the mbtB gene and replace this with a hygromycin-resistance cassette in the virulent strain of M. tuberculosis H37Rv. The resulting mutant is restricted for growth in iron-limited media but grows normally in iron-replete media. Analysis of siderophore production by this organism revealed that the biosynthesis of all salicylate-derived siderophores was interrupted. The mutant was found to be impaired for growth in macrophage-like THP-1 cells, suggesting that siderophore production is required for virulence of M. tuberculosis. These results provide conclusive evidence linking this genetic locus to siderophore production.
ISSN:0027-8424
1091-6490
DOI:10.1073/pnas.97.3.1252