Schizophrenia and neurogenesis: A stem cell approach

•SCZ may proceed through defects of key signaling regulating adult neurogenesis.•As for brain remodeling, adolescence is a critical period for adult neurogenesis.•Teens’ exposure to specific environmental risk factors affects adult neurogenesis.•Pharmacological/non-pharmacological interventions may...

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Veröffentlicht in:	Neuroscience and biobehavioral reviews 2017-09, Vol.80, p.414-442
Hauptverfasser:	Iannitelli, Angela, Quartini, Adele, Tirassa, Paola, Bersani, Giuseppe
Format:	Artikel
Sprache:	eng
Schlagworte:	Adolescence Animals Brain - growth & development Brain - physiopathology Central nervous system Hippocampus Humans Neural stem cells Neural Stem Cells - physiology Neurodevelopment Neurogenesis Neurogenesis - physiology Prefrontal cortex Schizophrenia Schizophrenia - physiopathology
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creator	Iannitelli, Angela Quartini, Adele Tirassa, Paola Bersani, Giuseppe
description	•SCZ may proceed through defects of key signaling regulating adult neurogenesis.•As for brain remodeling, adolescence is a critical period for adult neurogenesis.•Teens’ exposure to specific environmental risk factors affects adult neurogenesis.•Pharmacological/non-pharmacological interventions may reverse neurogenesis defects.•For their role on neurogenesis, NTs may be considered as a SCZ potential treatment. Several recent research findings indicate that schizophrenia (SCZ) may begin with an abnormal neuro-genesis from embryonic Neural Stem Cells (NSCs) and that this process may be particularly vulnerable to a number of genetic and/or environmental disturbances of early brain development. Since it is now well known that neurogenesis is not confined to the womb, but is a protracted process continuing in postnatal life well into adolescence and beyond, and since in the majority of subjects diagnosed with SCZ the first psychotic break occurs in late adolescence or early adulthood, the aim of our paper is to summarize the main findings supporting a possible link between changes in developmental postnatal neurogenesis and SCZ, with a specific focus on the critical period of adolescence and associated environmental risk factors. Establishing a significant role of adult neurogenesis in the emergence of psychosis will help us not only to better understand the pathogenesis of this neuopsychiatric disorder, but also to provide the key to potential strategies toward possible treatments and/or early corrective interventions.
doi_str_mv	10.1016/j.neubiorev.2017.06.010
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Several recent research findings indicate that schizophrenia (SCZ) may begin with an abnormal neuro-genesis from embryonic Neural Stem Cells (NSCs) and that this process may be particularly vulnerable to a number of genetic and/or environmental disturbances of early brain development. Since it is now well known that neurogenesis is not confined to the womb, but is a protracted process continuing in postnatal life well into adolescence and beyond, and since in the majority of subjects diagnosed with SCZ the first psychotic break occurs in late adolescence or early adulthood, the aim of our paper is to summarize the main findings supporting a possible link between changes in developmental postnatal neurogenesis and SCZ, with a specific focus on the critical period of adolescence and associated environmental risk factors. 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Several recent research findings indicate that schizophrenia (SCZ) may begin with an abnormal neuro-genesis from embryonic Neural Stem Cells (NSCs) and that this process may be particularly vulnerable to a number of genetic and/or environmental disturbances of early brain development. Since it is now well known that neurogenesis is not confined to the womb, but is a protracted process continuing in postnatal life well into adolescence and beyond, and since in the majority of subjects diagnosed with SCZ the first psychotic break occurs in late adolescence or early adulthood, the aim of our paper is to summarize the main findings supporting a possible link between changes in developmental postnatal neurogenesis and SCZ, with a specific focus on the critical period of adolescence and associated environmental risk factors. 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subjects	Adolescence Animals Brain - growth & development Brain - physiopathology Central nervous system Hippocampus Humans Neural stem cells Neural Stem Cells - physiology Neurodevelopment Neurogenesis Neurogenesis - physiology Prefrontal cortex Schizophrenia Schizophrenia - physiopathology
title	Schizophrenia and neurogenesis: A stem cell approach
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