Perturbation of membrane dynamics in nerve cells as an early event during bilirubin-induced apoptosis

Increased levels of unconjugated bilirubin, the end product of heme catabolism, impair crucial aspects of nerve cell function. In previous studies, we demonstrated that bilirubin toxicity may be due to cell death by apoptosis. To characterize the sequence of events leading to neurotoxicity, we expos...

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Published in:Journal of lipid research 2002-06, Vol.43 (6), p.885-894
Main Authors: Rodrigues, Cecília M.P., Solá, Susana, Castro, Rui E., Laires, Pedro A., Brites, Dora, Moura, José J.G.
Format: Article
Language:English
Subjects:
Animals
Apoptosis
Astrocytes - metabolism
Bilirubin - toxicity
bilirubin neurotoxicity
cell death
Cell Membrane - drug effects
Cell Membrane - physiology
electron paramagnetic resonance spectroscopy
Lipid Metabolism
Lipids - chemistry
membrane lipid and protein structure
Membrane Lipids - metabolism
Membrane Proteins - metabolism
Mitochondria - metabolism
Neurons - drug effects
Neurons - physiology
oxidative stress
Rats
Rats, Wistar
spin labels
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cited_by cdi_FETCH-LOGICAL-c499t-941fde5df7893a25705ce957935e4b78646c376173dee64583081dbabbfb82333
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container_title Journal of lipid research
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creator Rodrigues, Cecília M.P.
Solá, Susana
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Moura, José J.G.
description Increased levels of unconjugated bilirubin, the end product of heme catabolism, impair crucial aspects of nerve cell function. In previous studies, we demonstrated that bilirubin toxicity may be due to cell death by apoptosis. To characterize the sequence of events leading to neurotoxicity, we exposed developing rat brain astrocytes and neurons to unconjugated bilirubin and investigated whether changes in membrane dynamic properties can mediate apoptosis. Bilirubin induced a rapid, dose-dependent increase in apoptosis, which was nevertheless preceded by impaired mitochondrial metabolism. Using spin labels and electron paramagnetic resonance spectroscopy analysis of whole cell and isolated mitochondrial membranes exposed to bilirubin, we detected major membrane perturbation. By physically interacting with cell membranes, bilirubin induced an almost immediate increase in lipid polarity sensed at a superficial level. The enhanced membrane permeability coincided with an increase in lipid fluidity and protein mobility and was associated with significant oxidative injury to membrane lipids. In conclusion, apoptosis of nerve cells induced by bilirubin is mediated by its primary effect at physically perturbing the cell membrane. Bilirubin directly interacts with membranes influencing lipid polarity and fluidity, protein order, and redox status. These data suggest that nerve cell membranes are primary targets of bilirubin toxicity.
doi_str_mv 10.1016/S0022-2275(20)30462-4
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In previous studies, we demonstrated that bilirubin toxicity may be due to cell death by apoptosis. To characterize the sequence of events leading to neurotoxicity, we exposed developing rat brain astrocytes and neurons to unconjugated bilirubin and investigated whether changes in membrane dynamic properties can mediate apoptosis. Bilirubin induced a rapid, dose-dependent increase in apoptosis, which was nevertheless preceded by impaired mitochondrial metabolism. Using spin labels and electron paramagnetic resonance spectroscopy analysis of whole cell and isolated mitochondrial membranes exposed to bilirubin, we detected major membrane perturbation. By physically interacting with cell membranes, bilirubin induced an almost immediate increase in lipid polarity sensed at a superficial level. The enhanced membrane permeability coincided with an increase in lipid fluidity and protein mobility and was associated with significant oxidative injury to membrane lipids. 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source ScienceDirect Additional Titles
subjects Animals
Apoptosis
Astrocytes - metabolism
Bilirubin - toxicity
bilirubin neurotoxicity
cell death
Cell Membrane - drug effects
Cell Membrane - physiology
electron paramagnetic resonance spectroscopy
Lipid Metabolism
Lipids - chemistry
membrane lipid and protein structure
Membrane Lipids - metabolism
Membrane Proteins - metabolism
Mitochondria - metabolism
Neurons - drug effects
Neurons - physiology
oxidative stress
Rats
Rats, Wistar
spin labels
title Perturbation of membrane dynamics in nerve cells as an early event during bilirubin-induced apoptosis
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