Integrative omics identifies conserved and pathogen-specific responses of sepsis-causing bacteria.
Andre MuWilliam P KlareSarah L BainesChi Nam Ignatius PangRomain J R GuérillotNichaela Harbison-PriceNadia KellerJonathan WilkschNguyen Thi Khanh NhuMinh Duy PhanBernhard KellerBrunda NijagalDedreia TullSaravanan DayalanHwa Huat Charlie ChuaDominik SkonecznyJason KovalAbderrahman HachaniAnup D ShahNitika NehaSnehal JadhavSally R PartridgeAmanda J CorkKate PetersOlivia BertollaStephan BrouwerSteven J HancockLaura Alvarez-FragaDavid M P De OliveiraBrian M FordeAshleigh DaleWarasinee MujchariyakulCalum J WalshIan R MonkAnna FitzgeraldMabel LumCarolina Correa-OspinaPiklu Roy ChowdhuryRobert G PartonJames J De VossJames BeckettFrancois MontyJessica McKinnonXiaomin SongJohn R StephenMarie EverestMatthew I BellgardMatthew TinningMichael LeemingDianna M HockingLeila JebeliNancy WangNouri L Ben ZakourSerhat A YasarStefano VecchiarelliTonia RussellThiri ZawTyrone ChenDon TengZena KassirTrevor J LithgowAdam JenneyJason N ColeVictor NizetTania C SorrellAnton Y PelegDavid L PatersonScott A BeatsonJemma WuMark P MolloyAnna E SymeRobert J A GoodeAdam A HunterGrahame BowlandNicholas P WestMarc R WilkinsSteven Philip DjordjevicMark R DaviesTorsten SeemannBenjamin Peter HowdenDana PascoviciSonika TyagiRalf Bernd SchittenhelmDavid P de SouzaMalcolm J McConvilleJonathan R IredellStuart J CordwellRichard A StrugnellTimothy P StinearMark A SchembriMark J WalkerPublished in: Nature communications (2023)
Even in the setting of optimal resuscitation in high-income countries severe sepsis and septic shock have a mortality of 20-40%, with antibiotic resistance dramatically increasing this mortality risk. To develop a reference dataset enabling the identification of common bacterial targets for therapeutic intervention, we applied a standardized genomic, transcriptomic, proteomic and metabolomic technological framework to multiple clinical isolates of four sepsis-causing pathogens: Escherichia coli, Klebsiella pneumoniae species complex, Staphylococcus aureus and Streptococcus pyogenes. Exposure to human serum generated a sepsis molecular signature containing global increases in fatty acid and lipid biosynthesis and metabolism, consistent with cell envelope remodelling and nutrient adaptation for osmoprotection. In addition, acquisition of cholesterol was identified across the bacterial species. This detailed reference dataset has been established as an open resource to support discovery and translational research.
Keyphrases
- septic shock
- klebsiella pneumoniae
- escherichia coli
- fatty acid
- single cell
- staphylococcus aureus
- biofilm formation
- multidrug resistant
- randomized controlled trial
- acute kidney injury
- intensive care unit
- candida albicans
- high throughput
- small molecule
- transcription factor
- gene expression
- copy number
- rna seq
- cardiovascular events
- early onset
- bone marrow
- coronary artery disease
- mesenchymal stem cells
- cystic fibrosis
- cell wall