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Integrative omics identifies conserved and pathogen-specific responses of sepsis-causing bacteria.

Authors :
Mu, A
Klare, WP
Baines, SL
Ignatius Pang, CN
Guérillot, R
Harbison-Price, N
Keller, N
Wilksch, J
Nhu, NTK
Phan, M-D
Keller, B
Nijagal, B
Tull, D
Dayalan, S
Chua, HHC
Skoneczny, D
Koval, J
Hachani, A
Shah, AD
Neha, N
Jadhav, S
Partridge, SR
Cork, AJ
Peters, K
Bertolla, O
Brouwer, S
Hancock, SJ
Álvarez-Fraga, L
De Oliveira, DMP
Forde, B
Dale, A
Mujchariyakul, W
Walsh, CJ
Monk, I
Fitzgerald, A
Lum, M
Correa-Ospina, C
Roy Chowdhury, P
Parton, RG
De Voss, J
Beckett, J
Monty, F
McKinnon, J
Song, X
Stephen, JR
Everest, M
Bellgard, MI
Tinning, M
Leeming, M
Hocking, D
Jebeli, L
Wang, N
Ben Zakour, N
Yasar, SA
Vecchiarelli, S
Russell, T
Zaw, T
Chen, T
Teng, D
Kassir, Z
Lithgow, T
Jenney, A
Cole, JN
Nizet, V
Sorrell, TC
Peleg, AY
Paterson, DL
Beatson, SA
Wu, J
Molloy, MP
Syme, AE
Goode, RJA
Hunter, AA
Bowland, G
West, NP
Wilkins, MR
Djordjevic, SP
Davies, MR
Seemann, T
Howden, BP
Pascovici, D
Tyagi, S
Schittenhelm, RB
De Souza, DP
McConville, MJ
Iredell, JR
Cordwell, SJ
Strugnell, RA
Stinear, TP
Schembri, MA
Walker, MJ
Mu, A
Klare, WP
Baines, SL
Ignatius Pang, CN
Guérillot, R
Harbison-Price, N
Keller, N
Wilksch, J
Nhu, NTK
Phan, M-D
Keller, B
Nijagal, B
Tull, D
Dayalan, S
Chua, HHC
Skoneczny, D
Koval, J
Hachani, A
Shah, AD
Neha, N
Jadhav, S
Partridge, SR
Cork, AJ
Peters, K
Bertolla, O
Brouwer, S
Hancock, SJ
Álvarez-Fraga, L
De Oliveira, DMP
Forde, B
Dale, A
Mujchariyakul, W
Walsh, CJ
Monk, I
Fitzgerald, A
Lum, M
Correa-Ospina, C
Roy Chowdhury, P
Parton, RG
De Voss, J
Beckett, J
Monty, F
McKinnon, J
Song, X
Stephen, JR
Everest, M
Bellgard, MI
Tinning, M
Leeming, M
Hocking, D
Jebeli, L
Wang, N
Ben Zakour, N
Yasar, SA
Vecchiarelli, S
Russell, T
Zaw, T
Chen, T
Teng, D
Kassir, Z
Lithgow, T
Jenney, A
Cole, JN
Nizet, V
Sorrell, TC
Peleg, AY
Paterson, DL
Beatson, SA
Wu, J
Molloy, MP
Syme, AE
Goode, RJA
Hunter, AA
Bowland, G
West, NP
Wilkins, MR
Djordjevic, SP
Davies, MR
Seemann, T
Howden, BP
Pascovici, D
Tyagi, S
Schittenhelm, RB
De Souza, DP
McConville, MJ
Iredell, JR
Cordwell, SJ
Strugnell, RA
Stinear, TP
Schembri, MA
Walker, MJ
Publication Year :
2023

Abstract

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.

Details

Database :
OAIster
Publication Type :
Electronic Resource
Accession number :
edsoai.on1414429947
Document Type :
Electronic Resource