Author:
Pandey Ruchi,Rodriguez G. Marcela
Abstract
ABSTRACTIron is an essential, elusive, and potentially toxic nutrient for most pathogens, includingMycobacterium tuberculosis. Due to the poor solubility of ferric iron under aerobic conditions, free iron is not found in the host.M. tuberculosisrequires specialized iron acquisition systems to replicate and cause disease. It also depends on a strict control of iron metabolism and intracellular iron levels to prevent iron-mediated toxicity. Under conditions of iron sufficiency,M. tuberculosisrepresses iron acquisition and induces iron storage, suggesting an important role for iron storage proteins in iron homeostasis.M. tuberculosissynthesizes two iron storage proteins, a ferritin (BfrB) and a bacterioferritin (BfrA). The individual contributions of these proteins to the adaptive response ofM. tuberculosisto changes in iron availability are not clear. By generating individual knockout strains ofbfrAandbfrB, the contribution of each one of these proteins to the maintenance of iron homeostasis was determined. The effect of altered iron homeostasis, resulting from impaired iron storage, on the resistance ofM. tuberculosistoin vitroandin vivostresses was examined. The results show that ferritin is required to maintain iron homeostasis, whereas bacterioferritin seems to be dispensable for this function.M. tuberculosislacking ferritin suffers from iron-mediated toxicity, is unable to persist in mice, and, most importantly, is highly susceptible to killing by antibiotics, showing that endogenous oxidative stress can enhance the antibiotic killing of this important pathogen. These results are relevant for the design of new therapeutic strategies againstM. tuberculosis.
Publisher
American Society for Microbiology
Subject
Infectious Diseases,Immunology,Microbiology,Parasitology
Cited by
88 articles.
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