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Identification of a human neonatal immune-metabolic network associated with bacterial infection

Author

Listed:
  • Claire L. Smith

    (Neonatal Unit, Simpson Centre for Reproductive Health, Royal Infirmary of Edinburgh
    Edinburgh Infectious Diseases, University of Edinburgh)

  • Paul Dickinson

    (Edinburgh Infectious Diseases, University of Edinburgh
    SynthSys—Synthetic and Systems Biology, University of Edinburgh)

  • Thorsten Forster

    (Edinburgh Infectious Diseases, University of Edinburgh
    SynthSys—Synthetic and Systems Biology, University of Edinburgh)

  • Marie Craigon

    (Edinburgh Infectious Diseases, University of Edinburgh)

  • Alan Ross

    (Edinburgh Infectious Diseases, University of Edinburgh)

  • Mizanur R. Khondoker

    (Edinburgh Infectious Diseases, University of Edinburgh
    Present address: Department of Biostatistics, Institute of Psychiatry and NIHR Biomedical Research Centre for Mental Health at the South London and Maudsley NHS Foundation Trust, King’s College, London, UK)

  • Rebecca France

    (Edinburgh Infectious Diseases, University of Edinburgh)

  • Alasdair Ivens

    (Fios Genomics Ltd., ETTC, King’s Buildings
    Present address: Centre for Infection Immunity and Evolution, King’s Buildings, University of Edinburgh, Edinburgh, UK)

  • David J. Lynn

    (AGRIC, Teagasc, Grange
    Present address: EMBL Australia Laboratory, South Australian Health and Medical Research Institute, North Terrace, Adelaide, South Australia 5000, Australia)

  • Judith Orme

    (Neonatal Unit, Simpson Centre for Reproductive Health, Royal Infirmary of Edinburgh)

  • Allan Jackson

    (Neonatal Unit, Simpson Centre for Reproductive Health, Royal Infirmary of Edinburgh)

  • Paul Lacaze

    (Edinburgh Infectious Diseases, University of Edinburgh)

  • Katie L. Flanagan

    (MRC Research Laboratories, Atlantic Boulevard
    Present address: Department of Immunology, Monash University, Commercial Road, Prahran, Melbourne, Victoria 3181, Australia)

  • Benjamin J. Stenson

    (Neonatal Unit, Simpson Centre for Reproductive Health, Royal Infirmary of Edinburgh)

  • Peter Ghazal

    (Edinburgh Infectious Diseases, University of Edinburgh
    SynthSys—Synthetic and Systems Biology, University of Edinburgh)

Abstract

Understanding how human neonates respond to infection remains incomplete. Here, a system-level investigation of neonatal systemic responses to infection shows a surprisingly strong but unbalanced homeostatic immune response; developing an elevated set-point of myeloid regulatory signalling and sugar-lipid metabolism with concomitant inhibition of lymphoid responses. Innate immune-negative feedback opposes innate immune activation while suppression of T-cell co-stimulation is coincident with selective upregulation of CD85 co-inhibitory pathways. By deriving modules of co-expressed RNAs, we identify a limited set of networks associated with bacterial infection that exhibit high levels of inter-patient variability. Whereas, by integrating immune and metabolic pathways, we infer a patient-invariant 52-gene-classifier that predicts bacterial infection with high accuracy using a new independent patient population. This is further shown to have predictive value in identifying infection in suspected cases with blood culture-negative tests. Our results lay the foundation for future translation of host pathways in advancing diagnostic, prognostic and therapeutic strategies for neonatal sepsis.

Suggested Citation

  • Claire L. Smith & Paul Dickinson & Thorsten Forster & Marie Craigon & Alan Ross & Mizanur R. Khondoker & Rebecca France & Alasdair Ivens & David J. Lynn & Judith Orme & Allan Jackson & Paul Lacaze & K, 2014. "Identification of a human neonatal immune-metabolic network associated with bacterial infection," Nature Communications, Nature, vol. 5(1), pages 1-15, December.
    • Handle: RePEc:nat:natcom:v:5:y:2014:i:1:d:10.1038_ncomms5649
    DOI: 10.1038/ncomms5649
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    Cited by:

    1. A. Das & G. Ariyakumar & N. Gupta & S. Kamdar & A. Barugahare & D. Deveson-Lucas & S. Gee & K. Costeloe & M. S. Davey & P. Fleming & D. L. Gibbons, 2024. "Identifying immune signatures of sepsis to increase diagnostic accuracy in very preterm babies," Nature Communications, Nature, vol. 15(1), pages 1-15, December.

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