Malondialdehyde suppresses cerebral function by breaking homeostasis between excitation and inhibition in turtle Trachemys scripta.

Malondialdehyde suppresses cerebral function by breaking homeostasis between excitation and inhibition in turtle Trachemys scripta.

The levels of malondialdehyde (MDA) are high in the brain during carbonyl stress, such as following daily activities and sleep deprivation. To examine our hypothesis that MDA is one of the major substances in the brain leading to fatigue, the influences of MDA on brain functions and neuronal encodin...

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Main Authors: Fangxu Li, Zhilai Yang, Yang Lu, Yan Wei, Jinhui Wang, Dazhong Yin, Rongqiao He
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2010-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC3008675?pdf=render
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spelling doaj-0fb3de00c098403bab8ec4181e8a22122020-11-25T02:42:44ZengPublic Library of Science (PLoS)PLoS ONE1932-62032010-01-01512e1532510.1371/journal.pone.0015325Malondialdehyde suppresses cerebral function by breaking homeostasis between excitation and inhibition in turtle Trachemys scripta.Fangxu LiZhilai YangYang LuYan WeiJinhui WangDazhong YinRongqiao HeThe levels of malondialdehyde (MDA) are high in the brain during carbonyl stress, such as following daily activities and sleep deprivation. To examine our hypothesis that MDA is one of the major substances in the brain leading to fatigue, the influences of MDA on brain functions and neuronal encodings in red-eared turtle (Trachemys scripta) were studied. The intrathecal injections of MDA brought about sleep-like EEG and fatigue-like behaviors in a dose-dependent manner. These changes were found associated with the deterioration of encoding action potentials in cortical neurons. In addition, MDA increased the ratio of γ-aminobutyric acid to glutamate in turtle's brain, as well as the sensitivity of GABAergic neurons to inputs compared to excitatory neurons. Therefore, MDA, as a metabolic product in the brain, may weaken cerebral function during carbonyl stress through breaking the homeostasis between excitatory and inhibitory neurons.http://europepmc.org/articles/PMC3008675?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Fangxu Li
Zhilai Yang
Yang Lu
Yan Wei
Jinhui Wang
Dazhong Yin
Rongqiao He
spellingShingle Fangxu Li
Zhilai Yang
Yang Lu
Yan Wei
Jinhui Wang
Dazhong Yin
Rongqiao He
Malondialdehyde suppresses cerebral function by breaking homeostasis between excitation and inhibition in turtle Trachemys scripta.
PLoS ONE
author_facet Fangxu Li
Zhilai Yang
Yang Lu
Yan Wei
Jinhui Wang
Dazhong Yin
Rongqiao He
author_sort Fangxu Li
title Malondialdehyde suppresses cerebral function by breaking homeostasis between excitation and inhibition in turtle Trachemys scripta.
title_short Malondialdehyde suppresses cerebral function by breaking homeostasis between excitation and inhibition in turtle Trachemys scripta.
title_full Malondialdehyde suppresses cerebral function by breaking homeostasis between excitation and inhibition in turtle Trachemys scripta.
title_fullStr Malondialdehyde suppresses cerebral function by breaking homeostasis between excitation and inhibition in turtle Trachemys scripta.
title_full_unstemmed Malondialdehyde suppresses cerebral function by breaking homeostasis between excitation and inhibition in turtle Trachemys scripta.
title_sort malondialdehyde suppresses cerebral function by breaking homeostasis between excitation and inhibition in turtle trachemys scripta.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2010-01-01
description The levels of malondialdehyde (MDA) are high in the brain during carbonyl stress, such as following daily activities and sleep deprivation. To examine our hypothesis that MDA is one of the major substances in the brain leading to fatigue, the influences of MDA on brain functions and neuronal encodings in red-eared turtle (Trachemys scripta) were studied. The intrathecal injections of MDA brought about sleep-like EEG and fatigue-like behaviors in a dose-dependent manner. These changes were found associated with the deterioration of encoding action potentials in cortical neurons. In addition, MDA increased the ratio of γ-aminobutyric acid to glutamate in turtle's brain, as well as the sensitivity of GABAergic neurons to inputs compared to excitatory neurons. Therefore, MDA, as a metabolic product in the brain, may weaken cerebral function during carbonyl stress through breaking the homeostasis between excitatory and inhibitory neurons.
url http://europepmc.org/articles/PMC3008675?pdf=render
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