Combined effects of bilirubin and hypoxia on cultured neurons from the developing rat forebrain

Combined effects of bilirubin and hypoxia on cultured neurons from the developing rat forebrain

Hyperbilirubinemia and hypoxia are common causes of brain injury in the newborn. To determine the effects of free bilirubin associated with transient hypoxia on developing rat neurons, the cells were exposed to bilirubin (0.25 to 5 μmol/L) and/or to hypoxia for 3 or 6 hours (95% N2-5% CO2). Glutamat...

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Bibliographic Details
Published in:Seminars in perinatology Vol. 26; no. 6; pp. 416 - 424
Main Authors: Grojean, Stéphanie, Vert, Paul, Daval, Jean-Luc
Format: Journal Article
Language:English
Published: United States Elsevier Inc 01-12-2002
Subjects:
Animals
Apoptosis - physiology
Bilirubin - adverse effects
Bilirubin - pharmacology
Cell Survival - physiology
Deoxyglucose - metabolism
Energy Metabolism - physiology
Female
Hyperbilirubinemia - metabolism
Hyperbilirubinemia - pathology
Hypoxia-Ischemia, Brain - metabolism
Leucine - metabolism
Male
Neurons - cytology
Neurons - drug effects
Neurons - metabolism
Pregnancy
Prosencephalon - cytology
Prosencephalon - drug effects
Prosencephalon - metabolism
Rats
Rats, Sprague-Dawley
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Summary:Hyperbilirubinemia and hypoxia are common causes of brain injury in the newborn. To determine the effects of free bilirubin associated with transient hypoxia on developing rat neurons, the cells were exposed to bilirubin (0.25 to 5 μmol/L) and/or to hypoxia for 3 or 6 hours (95% N2-5% CO2). Glutamate receptor antagonists were added to some cultures. Cell death characteristics, energy metabolism, and protein synthesis were analyzed for 96 hours. Bilirubin increased apoptotic cell death. When associated with hypoxia, the neuronal loss was worsened. Bilirubin reduced energy metabolism, whereas a 6-hour exposure to hypoxia increased it for at least 24 hours, with no influence of additional bilirubin. Bilirubin with or without hypoxia induced 2 increases in protein synthesis, at 1 and 72 hours. In this model, bilirubin may promote programmed neuronal death. When bilirubin is associated with hypoxia, the deleterious effects are enhanced. The suppression of bilirubin induced neuronal damage by the NMDA (N-methyl-D-aspartate) receptor antagonist MK901 suggests the involvement of glutamate.
ISSN:0146-0005
1558-075X
DOI:10.1053/sper.2002.37141