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The Klebsiella pneumoniae citrate synthase gene, gltA, influences site specific fitness during infection
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The Klebsiella pneumoniae citrate synthase gene, gltA, influences site specific fitness during infection
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Journal Article
The Klebsiella pneumoniae citrate synthase gene, gltA, influences site specific fitness during infection
2019
Overview
Klebsiella pneumoniae (Kp), one of the most common causes of healthcare-associated infections, increases patient morbidity, mortality, and hospitalization costs. Kp must acquire nutrients from the host for successful infection; however, the host is able to prevent bacterial nutrient acquisition through multiple systems. This includes the innate immune protein lipocalin 2 (Lcn2), which prevents Kp iron acquisition. To identify novel Lcn2-dependent Kp factors that mediate evasion of nutritional immunity during lung infection, we undertook an InSeq study using a pool of >20,000 transposon mutants administered to Lcn2+/+ and Lcn2-/- mice. Comparing transposon mutant frequencies between mouse genotypes, we identified the Kp citrate synthase, GltA, as potentially interacting with Lcn2, and this novel finding was independently validated. Interestingly, in vitro studies suggest that this interaction is not direct. Given that GltA is involved in oxidative metabolism, we screened the ability of this mutant to use a variety of carbon and nitrogen sources. The results indicated that the gltA mutant has a distinct amino acid auxotrophy rendering it reliant upon glutamate family amino acids for growth. Deletion of Lcn2 from the host leads to increased amino acid levels in bronchioloalveolar lavage fluid, corresponding to increased fitness of the gltA mutant in vivo and ex vivo. Accordingly, addition of glutamate family amino acids to Lcn2+/+ bronchioloalveolar lavage fluid rescued growth of the gltA mutant. Using a variety of mouse models of infection, we show that GltA is an organ-specific fitness factor required for complete fitness in the spleen, liver, and gut, but dispensable in the bloodstream. Similar to bronchioloalveolar lavage fluid, addition of glutamate family amino acids to Lcn2+/+ organ lysates was sufficient to rescue the loss of gltA. Together, this study describes a critical role for GltA in Kp infection and provides unique insight into how metabolic flexibility impacts bacterial fitness during infection.
Publisher
Public Library of Science,Public Library of Science (PLoS)
Subject
/ Analysis
/ Animals
/ Citrate (si)-Synthase - genetics
/ Citrate (si)-Synthase - metabolism
/ Cloning
/ E coli
/ Fitness
/ Genes
/ Humans
/ Immunity
/ Iron
/ Klebsiella Infections - metabolism
/ Klebsiella Infections - microbiology
/ Klebsiella pneumoniae - enzymology
/ Klebsiella pneumoniae - growth & development
/ Lungs
/ Lysates
/ Medicine and Health Sciences
/ Mice
/ Mutants
/ Novels
/ Research and Analysis Methods
/ Spleen
