Inflammatory-induced hibernation in the fetus: priming of fetal sheep metabolism correlates with developmental brain injury

Prenatal inflammation is considered an important factor contributing to preterm birth and neonatal mortality and morbidity. The impact of prenatal inflammation on fetal bioenergetic status and the correlation of specific metabolites to inflammatory-induced developmental brain injury are unknown. We...

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Bibliographic Details
Published in:PloS one 2011-12, Vol.6 (12), p.e29503-e29503
Main Authors: Keller, Matthias, Enot, David P, Hodson, Mark P, Igwe, Emeka I, Deigner, Hans-Peter, Dean, Justin, Bolouri, Hayde, Hagberg, Henrik, Mallard, Carina
Format: Article
Language:English
Subjects:
Acute-Phase Reaction - blood
Acute-Phase Reaction - complications
Acute-Phase Reaction - embryology
Acute-Phase Reaction - physiopathology
Amino acids
Animals
Apoptosis
Arteries - drug effects
Arteries - embryology
Arteries - physiopathology
Bioindicators
Biology
Biomarkers
Blood Gas Analysis
Brain
Brain damage
Brain injuries
Brain Injuries - blood
Brain Injuries - embryology
Brain Injuries - metabolism
Brain Injuries - physiopathology
Brain injury
Brain research
Correlation analysis
Energy metabolism
Fetus - drug effects
Fetus - metabolism
Fetus - pathology
Fetus - physiopathology
Fetuses
Food
Head injuries
Hibernation
Hibernation - drug effects
Hibernation - physiology
Histochemistry
Histopathology
Hypoxia
Infant mortality
Infections
Inflammation
Inflammation - blood
Inflammation - pathology
Injuries
Ischemia
Kirurgi
Lipopolysaccharides
Lipopolysaccharides - pharmacology
Mass spectrometry
Medicine
Metabolism
Metabolites
Metabolome - drug effects
Metabolomics
Morbidity
Mortality
Neonates
Neurosciences
Ovis aries
Pediatrics
Pediatrik
Physiological aspects
Physiology
Polyamines
Pregnant women
Premature birth
Premature infants
Priming
Rodents
Scientific imaging
Sheep
Sheep - blood
Sheep - embryology
Substantia grisea
Surgery
Target recognition
Traumatic brain injury
Vital Signs - drug effects
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Summary:Prenatal inflammation is considered an important factor contributing to preterm birth and neonatal mortality and morbidity. The impact of prenatal inflammation on fetal bioenergetic status and the correlation of specific metabolites to inflammatory-induced developmental brain injury are unknown. We used a global metabolomics approach to examine plasma metabolites differentially regulated by intrauterine inflammation. Preterm-equivalent sheep fetuses were randomized to i.v. bolus infusion of either saline-vehicle or LPS. Blood samples were collected at baseline 2 h, 6 h and daily up to 10 days for metabolite quantification. Animals were killed at 10 days after LPS injection, and brain injury was assessed by histopathology. We detected both acute and delayed effects of LPS on fetal metabolism, with a long-term down-regulation of fetal energy metabolism. Within the first 3 days after LPS, 121 metabolites were up-regulated or down-regulated. A transient phase (4-6 days), in which metabolite levels recovered to baseline, was followed by a second phase marked by an opposing down-regulation of energy metabolites, increased pO(2) and increased markers of inflammation and ADMA. The characteristics of the metabolite response to LPS in these two phases, defined as 2 h to 2 days and at 6-9 days, respectively, were strongly correlated with white and grey matter volumes at 10 days recovery. Based on these results we propose a novel concept of inflammatory-induced hibernation of the fetus. Inflammatory priming of fetal metabolism correlated with measures of brain injury, suggesting potential for future biomarker research and the identification of therapeutic targets.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0029503