PPE37 Is Essential for Mycobacterium tuberculosis Heme-Iron Acquisition (HIA), and a Defective PPE37 in Mycobacterium bovis BCG Prevents HIA.

Abstract

Mycobacterium tuberculosis, one of the world's leading causes of death, must acquire nutrients, such as iron, from the host to multiply and cause disease. Iron is an essential metal and M. tuberculosis possesses two different systems to acquire iron from its environment: siderophore-mediated iron acquisition (SMIA) and heme-iron acquisition (HIA), involving uptake and degradation of heme to release ferrous iron. We have discovered that Mycobacterium bovis BCG, the tuberculosis vaccine strain, is severely deficient in HIA, and we exploited this phenotypic difference between BCG and M. tuberculosis to identify genes involved in HIA by complementing BCG's defect with a fosmid library. We identified ppe37, an iron-regulated PPE family gene, as being essential for HIA. BCG complemented with M. tuberculosisppe37 exhibits HIA as efficient as that of M. tuberculosis, achieving robust growth with <0.2 µM hemin. Conversely, deletion of ppe37 from M. tuberculosis results in a strain severely attenuated in HIA, with a phenotype nearly identical to that of BCG, requiring a 200-fold higher concentration of hemin to achieve growth equivalent to that of its parental strain. A nine-amino-acid deletion near the N terminus of BCG PPE37 (amino acids 31 to 39 of the M. tuberculosis PPE37 protein) underlies BCG's profound defect in HIA. Significant genetic variability exists in ppe37 genes across different M. tuberculosis strains, with more than 60% of sequences from completely sequenced M. tuberculosis genomes having mutations that result in altered PPE37 proteins; furthermore, these altered PPE37 proteins are nonfunctional in HIA. Our findings should allow delineation of the relative roles of HIA and SMIA in M. tuberculosis pathogenesis.