Early brain development disruption from NMDA receptor hypofunction: Relevance to schizophrenia

Abstract Disruption to brain development at an early stage can potentially alter chemically coded neural networks and can affect behavior in later life. During early brain development antagonism of glutamate NMDA receptors, which play an important role in neuronal outgrowth and survival, leads to ne...

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Published inBrain Research Reviews Vol. 53; no. 2; pp. 260 - 270
Main Authors du Bois, Teresa Marie, Huang, Xu-Feng
Format Journal Article
LanguageEnglish
Published Amsterdam Elsevier B.V 01.02.2007
Elsevier
Subjects
Adult and adolescent clinical studies
Animals
Biological and medical sciences
Brain - embryology
Brain - growth & development
Brain - metabolism
Brain development
Humans
Medical sciences
Neurology
NMDA receptor hypofunction
Psychology. Psychoanalysis. Psychiatry
Psychopathology. Psychiatry
Psychoses
Receptors, N-Methyl-D-Aspartate - physiology
Schizophrenia
Schizophrenia - metabolism
Schizophrenia - pathology
Schizophrenia
NMDA receptor hypofunction
Brain development
Psychosis
Central nervous system
Development
Early stage
Glutamate receptor
Review
NMDA receptor
Encephalon
Online AccessGet full text
ISSN0165-0173
1872-6321
DOI10.1016/j.brainresrev.2006.09.001

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Abstract Abstract Disruption to brain development at an early stage can potentially alter chemically coded neural networks and can affect behavior in later life. During early brain development antagonism of glutamate NMDA receptors, which play an important role in neuronal outgrowth and survival, leads to neuronal damage in several brain regions and causes behavioral alterations in rodents that mimic schizophrenia symptoms and endophenotypes. There are several lines of evidence implicating involvement of a dysfunctional glutamate system in schizophrenia. In normal subjects, NMDA receptor antagonists produce behavioral and neurochemical changes that mimic schizophrenia symptoms better than any other psychotomimetic drug. Moreover, these drugs worsen symptoms in schizophrenia patients and can trigger a recrudescence of the acute psychotic state in patients with stable chronic schizophrenia. In addition, genes consistently reported as being altered in schizophrenia play roles in development, neuroplasticity and glutamate/GABAergic neurotransmission. Perinatal NMDA receptor antagonist treatment is a useful model for studying the neurodevelopmental and NMDA receptor hypofunction hypotheses of schizophrenia because neurochemical and behavioral changes, reminiscent of those seen in schizophrenia, are present long after cessation of drug administration, which suggests that a permanent change in brain structure and organization has occurred during brain development.
AbstractList Disruption to brain development at an early stage can potentially alter chemically coded neural networks and can affect behavior in later life. During early brain development antagonism of glutamate NMDA receptors, which play an important role in neuronal outgrowth and survival, leads to neuronal damage in several brain regions and causes behavioral alterations in rodents that mimic schizophrenia symptoms and endophenotypes. There are several lines of evidence implicating involvement of a dysfunctional glutamate system in schizophrenia. In normal subjects, NMDA receptor antagonists produce behavioral and neurochemical changes that mimic schizophrenia symptoms better than any other psychotomimetic drug. Moreover, these drugs worsen symptoms in schizophrenia patients and can trigger a recrudescence of the acute psychotic state in patients with stable chronic schizophrenia. In addition, genes consistently reported as being altered in schizophrenia play roles in development, neuroplasticity and glutamate/GABAergic neurotransmission. Perinatal NMDA receptor antagonist treatment is a useful model for studying the neurodevelopmental and NMDA receptor hypofunction hypotheses of schizophrenia because neurochemical and behavioral changes, reminiscent of those seen in schizophrenia, are present long after cessation of drug administration, which suggests that a permanent change in brain structure and organization has occurred during brain development.
Abstract Disruption to brain development at an early stage can potentially alter chemically coded neural networks and can affect behavior in later life. During early brain development antagonism of glutamate NMDA receptors, which play an important role in neuronal outgrowth and survival, leads to neuronal damage in several brain regions and causes behavioral alterations in rodents that mimic schizophrenia symptoms and endophenotypes. There are several lines of evidence implicating involvement of a dysfunctional glutamate system in schizophrenia. In normal subjects, NMDA receptor antagonists produce behavioral and neurochemical changes that mimic schizophrenia symptoms better than any other psychotomimetic drug. Moreover, these drugs worsen symptoms in schizophrenia patients and can trigger a recrudescence of the acute psychotic state in patients with stable chronic schizophrenia. In addition, genes consistently reported as being altered in schizophrenia play roles in development, neuroplasticity and glutamate/GABAergic neurotransmission. Perinatal NMDA receptor antagonist treatment is a useful model for studying the neurodevelopmental and NMDA receptor hypofunction hypotheses of schizophrenia because neurochemical and behavioral changes, reminiscent of those seen in schizophrenia, are present long after cessation of drug administration, which suggests that a permanent change in brain structure and organization has occurred during brain development.
Disruption to brain development at an early stage can potentially alter chemically coded neural networks and can affect behavior in later life. During early brain development antagonism of glutamate NMDA receptors, which play an important role in neuronal outgrowth and survival, leads to neuronal damage in several brain regions and causes behavioral alterations in rodents that mimic schizophrenia symptoms and endophenotypes. There are several lines of evidence implicating involvement of a dysfunctional glutamate system in schizophrenia. In normal subjects, NMDA receptor antagonists produce behavioral and neurochemical changes that mimic schizophrenia symptoms better than any other psychotomimetic drug. Moreover, these drugs worsen symptoms in schizophrenia patients and can trigger a recrudescence of the acute psychotic state in patients with stable chronic schizophrenia. In addition, genes consistently reported as being altered in schizophrenia play roles in development, neuroplasticity and glutamate/GABAergic neurotransmission. Perinatal NMDA receptor antagonist treatment is a useful model for studying the neurodevelopmental and NMDA receptor hypofunction hypotheses of schizophrenia because neurochemical and behavioral changes, reminiscent of those seen in schizophrenia, are present long after cessation of drug administration, which suggests that a permanent change in brain structure and organization has occurred during brain development.Disruption to brain development at an early stage can potentially alter chemically coded neural networks and can affect behavior in later life. During early brain development antagonism of glutamate NMDA receptors, which play an important role in neuronal outgrowth and survival, leads to neuronal damage in several brain regions and causes behavioral alterations in rodents that mimic schizophrenia symptoms and endophenotypes. There are several lines of evidence implicating involvement of a dysfunctional glutamate system in schizophrenia. In normal subjects, NMDA receptor antagonists produce behavioral and neurochemical changes that mimic schizophrenia symptoms better than any other psychotomimetic drug. Moreover, these drugs worsen symptoms in schizophrenia patients and can trigger a recrudescence of the acute psychotic state in patients with stable chronic schizophrenia. In addition, genes consistently reported as being altered in schizophrenia play roles in development, neuroplasticity and glutamate/GABAergic neurotransmission. Perinatal NMDA receptor antagonist treatment is a useful model for studying the neurodevelopmental and NMDA receptor hypofunction hypotheses of schizophrenia because neurochemical and behavioral changes, reminiscent of those seen in schizophrenia, are present long after cessation of drug administration, which suggests that a permanent change in brain structure and organization has occurred during brain development.
Author Huang, Xu-Feng
du Bois, Teresa Marie
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Keywords Schizophrenia
NMDA receptor hypofunction
Brain development
Psychosis
Central nervous system
Development
Early stage
Glutamate receptor
Review
NMDA receptor
Encephalon
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Snippet Abstract Disruption to brain development at an early stage can potentially alter chemically coded neural networks and can affect behavior in later life. During...
Disruption to brain development at an early stage can potentially alter chemically coded neural networks and can affect behavior in later life. During early...
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SubjectTerms Adult and adolescent clinical studies
Animals
Biological and medical sciences
Brain - embryology
Brain - growth & development
Brain - metabolism
Brain development
Humans
Medical sciences
Neurology
NMDA receptor hypofunction
Psychology. Psychoanalysis. Psychiatry
Psychopathology. Psychiatry
Psychoses
Receptors, N-Methyl-D-Aspartate - physiology
Schizophrenia
Schizophrenia - metabolism
Schizophrenia - pathology
Title Early brain development disruption from NMDA receptor hypofunction: Relevance to schizophrenia
URI https://www.clinicalkey.es/playcontent/1-s2.0-S016501730600107X
https://dx.doi.org/10.1016/j.brainresrev.2006.09.001
https://www.ncbi.nlm.nih.gov/pubmed/17014910
https://www.proquest.com/docview/19575630
https://www.proquest.com/docview/68980142
Volume 53
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