Lactate metabolism promotes in vivo fitness during Acinetobacter baumannii infection.
Faye C MorrisYan JiangYing FuXenia KostouliasGerald L MurrayYusong YuAnton Y PelegPublished in: FEMS microbiology letters (2024)
Acinetobacter baumannii is one of the most prevalent causes of nosocomial infections worldwide. However, a paucity of information exists regarding the connection between metabolic capacity and in vivo bacterial fitness. Elevated lactate is a key marker of severe sepsis. We have previously shown that the putative A. baumannii lactate permease gene, lldP, is upregulated during in vivo infection. Here, we confirm that lldP expression is upregulated in three A. baumannii strains during a mammalian systemic infection. Utilising a transposon mutant disrupted for lldP in the contemporary clinical strain AB5075-UW, and a complemented strain, we confirmed its role in the in vitro utilisation of l-(+)-lactate. Furthermore, disruption of the lactate metabolism pathway resulted in reduced bacterial fitness during an in vivo systemic murine competition assay. The disruption of lldP had no impact on the susceptibility of this strain to complement mediated killing by healthy human serum. However, growth in biologically relevant concentrations of lactate observed during severe sepsis, led to bacterial tolerance to killing by healthy human blood, a phenotype that was abolished in the lldP mutant. This study highlights the importance of the lactate metabolism pathway for survival and growth of A. baumannii during infection.
Keyphrases
- acinetobacter baumannii
- multidrug resistant
- drug resistant
- pseudomonas aeruginosa
- physical activity
- body composition
- intensive care unit
- acute kidney injury
- endothelial cells
- early onset
- escherichia coli
- poor prognosis
- gene expression
- high throughput
- dna methylation
- drug induced
- staphylococcus aureus
- health information
- pluripotent stem cells