Mycobacterial Esx-3 is required for mycobactin-mediated iron acquisition

Siegrist, M. Sloan; Unnikrishnan, Meera; McConnell, Matthew; Borowsky, Mark; Cheng, Tan-Yun; Siddiqi, Noman; Fortune, Sarah M.; Moody, D. Branch; Rubín, Eric J.

doi:10.1073/pnas.0900589106

Cited by 287 publications

(334 citation statements)

References 46 publications

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“…However, the uptake of transferrin iron observed in our experiments was rapid with increased cellular iron levels observed within 6 h for M.tb H37Ra and within 1 h for M. smegmatis strains. Crucially, the M. smegmatis Desx-3 strain that is unable to utilize mycobactin 35 retained its ability to acquire transferrin iron to levels comparable with that of the wild-type strain. Siderophore synthesis occurs only after culture in iron-free media.…”

Section: Discussionmentioning

confidence: 99%

“…GAPDH was also identified in various fractions of M. smegmatis. To assess whether (i) transferrin-mediated uptake exists across mycobacterial species and (ii) whether mycobactin is essential for iron uptake from transferrin, we utilized the M. smegmatis Desx-3 that lacks the esx-3 secretion system and is therefore incapable of mycobactin-mediated iron uptake 35 . M. smegmatis wild-type and M. smegmatis Desx-3 strains demonstrated no difference in binding of transferrin ( Supplementary Fig.…”

Section: Localization Of Gapdh In Different Cellular Fractionsmentioning

confidence: 99%

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Mycobacterium tuberculosis acquires iron by cell-surface sequestration and internalization of human holo-transferrin

et al. 2014

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Mycobacterium tuberculosis (M.tb), which requires iron for survival, acquires this element by synthesizing iron-binding molecules known as siderophores and by recruiting a host iron-transport protein, transferrin, to the phagosome. The siderophores extract iron from transferrin and transport it into the bacterium. Here we describe an additional mechanism for iron acquisition, consisting of an M.tb protein that drives transport of human holo-transferrin into M.tb cells. The pathogenic strain M.tb H37Rv expresses several proteins that can bind human holo-transferrin. One of these proteins is the glycolytic enzyme glyceraldehyde-3-phosphate dehydrogenase (GAPDH, Rv1436), which is present on the surface of M.tb and its relative Mycobacterium smegmatis. Overexpression of GAPDH results in increased transferrin binding to M.tb cells and iron uptake. Human transferrin is internalized across the mycobacterial cell wall in a GAPDH-dependent manner within infected macrophages.

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Section: Discussionmentioning

confidence: 99%

Section: Localization Of Gapdh In Different Cellular Fractionsmentioning

confidence: 99%

Mycobacterium tuberculosis acquires iron by cell-surface sequestration and internalization of human holo-transferrin

et al. 2014

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“…46 However, esxH has been the only antigen of the TB10.4 esx subfamily targeted as a vaccine candidate because it is strongly recognized by BCG-vaccinated individuals and by 70% of TB patients. 23 Nevertheless, we show immunological evidence that simultaneously targeting all members of this subfamily in future vaccine approaches may provide better efficacy against TB.…”

Section: Discussionmentioning

confidence: 99%

Multivalent TB vaccines targeting the esx gene family generate potent and broad cell-mediated immune responses superior to BCG

Villarreal¹,

Walters

Laddy

et al. 2014

Human Vaccines & Immunotherapeutics

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“…3,4 The locus is essential for the growth of M. tuberculosis and the attenuated M. bovis strain used in BCG. 5 The team found that unlike M. tuberculosis and BCG, the more distant relative M. smegmatis could grow normally when esx-3 was deleted, and thus they selected the strain to study the locus' role.In mouse models of M. smegmatis infection, an esx-3-deleted strain was unable to evade the host innate immune system, whereas wildtype and esx-1-deleted strains did not elicit a strong innate immune response. Moreover, the esx-3-deleted strain had attenuated virulence.…”

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Smegmatis meets tuberculosis

Lou¹

2011

Science-Business eXchange

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have created an attenuated strain of Mycobacterium smegmatis containing M. tuberculosis genes. The vector conferred better protection against tuberculosis than the standard bacillus Calmette-Guérin (BCG) vaccine in mice. 1 The not-for-profit Aeras has licensed the technology and is now working with the researchers to determine an optimal combination of genes to use in M. smegmatis.The only prophylactic for TB is the BCG vaccine, which is prepared from a live, attenuated bacterial strain closely related to M. tuberculosis called M. bovis. In BCG, deletion of the region of difference 1 locus is responsible for its attenuation and loss of virulence. 2 Although the vaccine protects infants from pulmonary TB, it is not effective at protecting adults, nor can it prevent transmission or clear latent infections.Albert Einstein College of Medicine's new vaccine originated from research on Mycobacterium secretion systems and their role in helping the bacteria evade the host immune system.M. tuberculosis employs multiple strategies to do this, including a specialized secretion system encoded by genes in the bacterium's esx-1 locus. The M. tuberculosis genome contains four additional esx loci-esx-2 through esx-5-that may encode secretion systems, but their functions are poorly understood.The researchers were exploring the role of the esx-3 locus in immune evasion because it is the only esx locus conserved across all strains of Mycobacterium. 3,4 The locus is essential for the growth of M. tuberculosis and the attenuated M. bovis strain used in BCG. 5 The team found that unlike M. tuberculosis and BCG, the more distant relative M. smegmatis could grow normally when esx-3 was deleted, and thus they selected the strain to study the locus' role.In mouse models of M. smegmatis infection, an esx-3-deleted strain was unable to evade the host innate immune system, whereas wildtype and esx-1-deleted strains did not elicit a strong innate immune response. Moreover, the esx-3-deleted strain had attenuated virulence.Next, the researchers inserted a set of 26 M. tuberculosis genes including all 11 esx-3 genes into the attenuated M. smegmatis strain. Despite the addition of esx-3 genes, the strain still was not virulent and could not evade the immune system.At this point, the researchers began to think they had the makings of a vaccine vector in hand.In proof-of-concept studies in mouse models of lethal M. tuberculosis infection, i.v. or subcutaneous immunization with the recombinant attenuated M. smegmatis strain increased survival and resulted in greater decreases in tissue bacterial load compared with immunization using the BCG vaccine. Several of the mice receiving the recombinant M. smegmatis vaccine had tissue bacterial load reductions that were over 1,000-fold greater than those for mice given BCG.Results were published in Nature Medicine. "This is the first time we have seen a vaccine that can produce over three-log reductions in tissue bacterial burdens over BCG and a bactericidal immune response that causes a sustained decline...

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Mycobacterial Esx-3 is required for mycobactin-mediated iron acquisition

Cited by 287 publications

References 46 publications

Mycobacterium tuberculosis acquires iron by cell-surface sequestration and internalization of human holo-transferrin

Mycobacterium tuberculosis acquires iron by cell-surface sequestration and internalization of human holo-transferrin

Multivalent TB vaccines targeting the esx gene family generate potent and broad cell-mediated immune responses superior to BCG

Smegmatis meets tuberculosis

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