The mechanisms by which Legionella pneumophila, a facultative intracellular parasite and the agent of Legionnaires' disease, acquires iron are largely unexplained. Several earlier studies indicated that L. pneumophila does not elaborate siderophores. However, we now present evidence that supernatants from L. pneumophila cultures can contain a nonproteinaceous, high-affinity iron chelator. More specifically, when aerobically grown in a low-iron, chemically defined medium (CDM), L. pneumophila secretes a substance that is reactive in the chrome azurol S (CAS) assay. Importantly, the siderophore-like activity was only observed when the CDM cultures were inoculated to relatively high density with bacteria that had been grown overnight to log or early stationary phase in CDM or buffered yeast extract. Inocula derived from late-stationary-phase cultures, despite ultimately growing, consistently failed to result in the elaboration of siderophore-like activity. The Legionella CAS reactivity was detected in the culture supernatants of the serogroup 1 strains 130b and Philadelphia-1, as well as those from representatives of other serogroups and other Legionella species. The CAS-reactive substance was resistant to boiling and protease treatment and was associated with the <1-kDa supernatant fraction. As would also be expected for a siderophore, the addition of 0.5 or 2.0 M iron to the cultures repressed the expression of the CAS-reactive substance. Interestingly, the supernatants were negative in the Arnow, Csáky, and Rioux assays, indicating that the Legionella siderophore was not a classic catecholate or hydroxamate and, hence, might have a novel structure. We have designated the L. pneumophila siderophore legiobactin.The bacterium Legionella pneumophila is a ubiquitous inhabitant of natural and man-made aquatic environments, surviving both free, in biofilms, and as an intracellular parasite of protozoa (1,8,26,49,50). Yet, this gram-negative microbe is best known for being the principal etiologic agent of Legionnaires' disease, a potentially fatal form of human pneumonia (59,95). Within the lung, L. pneumophila flourishes as an intracellular parasite of the alveolar macrophages and perhaps the epithelium (1,8,13,41,63,84). A variety of studies indicate that iron is a key requirement for L. pneumophila extracellular replication, intracellular infection, and virulence (7,9,10,25,31,39,40,44,45,60,65,71,72,76,77,78,86,89,91). Despite this, the molecular basis of Legionella iron acquisition, particularly its earliest stages, is relatively unclear.Among all of the considerations regarding Legionella iron acquisition, it is the issue of siderophore production by L. pneumophila that has been the most controversial. In the early 1980s, shortly after the discovery of the Legionella genus, it was reported that L. pneumophila does not produce siderophores (79). This conclusion was based upon the negative results that were obtained from a standard bioassay, as well as the Arnow and Csáky assays, the customary methods for detecting ...
