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Mycobacterium tuberculosis Exploits Asparagine to Assimilate Nitrogen and Resist Acid Stress during Infection
- Source :
- PLoS Pathogens, Vol 10, Iss 2, p e1003928 (2014), PLoS Pathogens, PLoS Pathogens; Vol 10
- Publication Year :
- 2014
-
Abstract
- Mycobacterium tuberculosis is an intracellular pathogen. Within macrophages, M. tuberculosis thrives in a specialized membrane-bound vacuole, the phagosome, whose pH is slightly acidic, and where access to nutrients is limited. Understanding how the bacillus extracts and incorporates nutrients from its host may help develop novel strategies to combat tuberculosis. Here we show that M. tuberculosis employs the asparagine transporter AnsP2 and the secreted asparaginase AnsA to assimilate nitrogen and resist acid stress through asparagine hydrolysis and ammonia release. While the role of AnsP2 is partially spared by yet to be identified transporter(s), that of AnsA is crucial in both phagosome acidification arrest and intracellular replication, as an M. tuberculosis mutant lacking this asparaginase is ultimately attenuated in macrophages and in mice. Our study provides yet another example of the intimate link between physiology and virulence in the tubercle bacillus, and identifies a novel pathway to be targeted for therapeutic purposes.<br />Author Summary Tuberculosis (TB) is still responsible for nearly 1.3 million deaths annually. There is an urgent need to identify novel drug targets in the tubercle bacillus, Mycobacterium tuberculosis, in order to develop novel therapeutics. To proliferate inside its human host, and ensure its spreading, M. tuberculosis must adapt its nutritional requirements and metabolism to the molecular environment it encounters during infection. Elucidating the origin, nature, and acquisition mechanisms of the nutrients required by M. tuberculosis inside its host may help identify targets for novel antimicrobials. In this study we asked how the TB bacillus acquires nitrogen, a vital constituent of all living organisms, from host tissues. We show the amino acid asparagine to be an important source of nitrogen for the bacillus, and we identify two bacterial proteins, AnsP2 and AnsA, that allow the pathogen to capture and ‘digest’ asparagine, respectively. In addition, we report that asparagine ‘digestion’ allows the pathogen to resist the host immune defense and to survive inside host cells and tissues. This study paves the way for future research into M. tuberculosis nitrogen metabolism, and for the development of alternative therapeutic strategies to impair nitrogen acquisition by the bacillus and treat patients with TB.
- Subjects :
- Vacuole
Mass Spectrometry
Gene Knockout Techniques
Mice
chemistry.chemical_compound
Phagosomes
Asparagine
Microscopy, Immunoelectron
lcsh:QH301-705.5
Phagosome
0303 health sciences
Microscopy, Confocal
biology
Flow Cytometry
3. Good health
Host-Pathogen Interaction
Biochemistry
Female
Mycobacterium tuberculosis
Nitrogen
Tuberculosis
Research Article
lcsh:Immunologic diseases. Allergy
Asparaginase
Phagosome acidification
Immunoblotting
Immunology
Virulence
Microbiology
03 medical and health sciences
Stress, Physiological
Virology
Genetics
medicine
Animals
Biology
Microbial Pathogens
Molecular Biology
Microbial Metabolism
030304 developmental biology
030306 microbiology
Macrophages
Membrane Transport Proteins
biology.organism_classification
medicine.disease
Mice, Inbred C57BL
Disease Models, Animal
chemistry
lcsh:Biology (General)
Parasitology
lcsh:RC581-607
Chromatography, Liquid
Subjects
Details
- Language :
- English
- Database :
- OpenAIRE
- Journal :
- PLoS Pathogens, Vol 10, Iss 2, p e1003928 (2014), PLoS Pathogens, PLoS Pathogens; Vol 10
- Accession number :
- edsair.doi.dedup.....aebe7d9944332f119cccf51f736f6933