ABSTRACTPseudomonas aeruginosaairway infections are a major cause of mortality and morbidity of cystic fibrosis (CF) patients. In order to persist,P. aeruginosadepends on acquiring iron from its host, and multiple different iron acquisition systems may be active during infection. This includes the pyoverdine siderophore and thePseudomonasheme utilization (phu) system. While the regulation and mechanisms of several iron-scavenging systems are well described, it is not clear whether such systems are targets for selection during adaptation ofP. aeruginosato the host environment. Here we investigated the within-host evolution of the transmissibleP. aeruginosaDK2 lineage. We found positive selection for promoter mutations leading to increased expression of thephusystem. By mimicking conditions of the CF airwaysin vitro, we experimentally demonstrate that increased expression ofphuRconfers a growth advantage in the presence of hemoglobin, thus suggesting thatP. aeruginosaevolves toward iron acquisition from hemoglobin. To rule out that this adaptive trait is specific to the DK2 lineage, we inspected the genomes of additionalP. aeruginosalineages isolated from CF airways and found similar adaptive evolution in two distinct lineages (DK1 and PA clone C). Furthermore, in all three lineages,phuRpromoter mutations coincided with the loss of pyoverdine production, suggesting that within-host adaptation toward heme utilization is triggered by the loss of pyoverdine production. Targeting heme utilization might therefore be a promising strategy for the treatment ofP. aeruginosainfections in CF patients.IMPORTANCEMost bacterial pathogens depend on scavenging iron within their hosts, which makes the battle for iron between pathogens and hosts a hallmark of infection. Accordingly, the ability of the opportunistic pathogenPseudomonas aeruginosato cause chronic infections in cystic fibrosis (CF) patients also depends on iron-scavenging systems. While the regulation and mechanisms of several such iron-scavenging systems have been well described, not much is known about how the within-host selection pressures act on the pathogens’ ability to acquire iron. Here, we investigated the within-host evolution ofP. aeruginosa, and we found evidence thatP. aeruginosaduring long-term infections evolves toward iron acquisition from hemoglobin. This adaptive strategy might be due to a selective loss of other iron-scavenging mechanisms and/or an increase in the availability of hemoglobin at the site of infection. This information is relevant to the design of novel CF therapeutics and the development of models of chronic CF infections.
Draft Genome Sequences of 63
Pseudomonas aeruginosa
Isolates Recovered from Cystic Fibrosis Sputum: TABLE 1
