Literature DB >> 21505116

Postnatal developmental trajectories of neural circuits in the primate prefrontal cortex: identifying sensitive periods for vulnerability to schizophrenia.

Gil D Hoftman1, David A Lewis.   

Abstract

Schizophrenia is a disorder of cognitive neurodevelopment with characteristic abnormalities in working memory attributed, at least in part, to alterations in the circuitry of the dorsolateral prefrontal cortex. Various environmental exposures from conception through adolescence increase risk for the illness, possibly by altering the developmental trajectories of prefrontal cortical circuits. Macaque monkeys provide an excellent model system for studying the maturation of prefrontal cortical circuits. Here, we review the development of glutamatergic and γ-aminobutyric acid (GABA)-ergic circuits in macaque monkey prefrontal cortex and discuss how these trajectories may help to identify sensitive periods during which environmental exposures, such as those associated with increased risk for schizophrenia, might lead to the types of abnormalities in prefrontal cortical function present in schizophrenia.
© The Author 2011. Published by Oxford University Press on behalf of the Maryland Psychiatric Research Center. All rights reserved.

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Year:  2011        PMID: 21505116      PMCID: PMC3080694          DOI: 10.1093/schbul/sbr029

Source DB:  PubMed          Journal:  Schizophr Bull        ISSN: 0586-7614            Impact factor:   9.306


  98 in total

1.  Maturation of cognitive processes from late childhood to adulthood.

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2.  Regional gray matter, white matter, and cerebrospinal fluid distributions in schizophrenic patients, their siblings, and controls.

Authors:  T D Cannon; T G van Erp; M Huttunen; J Lönnqvist; O Salonen; L Valanne; V P Poutanen; C G Standertskjöld-Nordenstam; R E Gur; M Yan
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3.  Reduced pyramidal cell somal volume in auditory association cortex of subjects with schizophrenia.

Authors:  Robert A Sweet; Joseph N Pierri; Sungyoung Auh; Allan R Sampson; David A Lewis
Journal:  Neuropsychopharmacology       Date:  2002-12-03       Impact factor: 7.853

4.  Relationship of cannabinoid CB1 receptor and cholecystokinin immunoreactivity in monkey dorsolateral prefrontal cortex.

Authors:  S M Eggan; D S Melchitzky; S R Sesack; K N Fish; D A Lewis
Journal:  Neuroscience       Date:  2010-06-11       Impact factor: 3.590

5.  Synaptogenesis in the prefrontal cortex of rhesus monkeys.

Authors:  J P Bourgeois; P S Goldman-Rakic; P Rakic
Journal:  Cereb Cortex       Date:  1994 Jan-Feb       Impact factor: 5.357

6.  Developmental co-regulation of the beta and gamma GABAA receptor subunits with distinct alpha subunits in the human dorsolateral prefrontal cortex.

Authors:  Stu G Fillman; Carlotta E Duncan; Maree J Webster; Michael Elashoff; Cynthia Shannon Weickert
Journal:  Int J Dev Neurosci       Date:  2010-06-04       Impact factor: 2.457

Review 7.  Role of endogenous cannabinoids in synaptic signaling.

Authors:  Tamas F Freund; Istvan Katona; Daniele Piomelli
Journal:  Physiol Rev       Date:  2003-07       Impact factor: 37.312

8.  Conserved regional patterns of GABA-related transcript expression in the neocortex of subjects with schizophrenia.

Authors:  Takanori Hashimoto; H Holly Bazmi; Karoly Mirnics; Qiang Wu; Allan R Sampson; David A Lewis
Journal:  Am J Psychiatry       Date:  2008-02-15       Impact factor: 18.112

Review 9.  Cannabis use and risk of psychotic or affective mental health outcomes: a systematic review.

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10.  Prefrontal GABA(A) receptor alpha-subunit expression in normal postnatal human development and schizophrenia.

Authors:  Carlotta E Duncan; Maree J Webster; Debora A Rothmond; Sabine Bahn; Michael Elashoff; Cynthia Shannon Weickert
Journal:  J Psychiatr Res       Date:  2010-01-25       Impact factor: 4.791
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  61 in total

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2.  Parvalbumin-containing chandelier and basket cell boutons have distinctive modes of maturation in monkey prefrontal cortex.

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Journal:  J Neurosci       Date:  2013-05-08       Impact factor: 6.167

3.  Nonhuman primate models of hippocampal development and dysfunction.

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4.  The adolescent brain: implications for the understanding, pathophysiology, and treatment of schizophrenia.

Authors:  Peter J Uhlhaas
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Review 5.  Interneuron epigenomes during the critical period of cortical plasticity: Implications for schizophrenia.

Authors:  Hirofumi Morishita; Marija Kundakovic; Lucy Bicks; Amanda Mitchell; Schahram Akbarian
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6.  Cortical parvalbumin GABAergic deficits with α7 nicotinic acetylcholine receptor deletion: implications for schizophrenia.

Authors:  Hong Lin; Fu-Chun Hsu; Bailey H Baumann; Douglas A Coulter; Stewart A Anderson; David R Lynch
Journal:  Mol Cell Neurosci       Date:  2014-06-28       Impact factor: 4.314

Review 7.  Transcriptional regulation of GAD1 GABA synthesis gene in the prefrontal cortex of subjects with schizophrenia.

Authors:  Amanda C Mitchell; Yan Jiang; Cyril Peter; Schahram Akbarian
Journal:  Schizophr Res       Date:  2014-10-31       Impact factor: 4.939

8.  Maturation changes the excitability and effective connectivity of the frontal lobe: A developmental TMS-EEG study.

Authors:  Sara Määttä; Laura Säisänen; Elisa Kallioniemi; Timo A Lakka; Niina Lintu; Eero A Haapala; Päivi Koskenkorva; Eini Niskanen; Florinda Ferreri; Mervi Könönen
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9.  Cortical synaptic NMDA receptor deficits in α7 nicotinic acetylcholine receptor gene deletion models: implications for neuropsychiatric diseases.

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10.  Altered expression of developmental regulators of parvalbumin and somatostatin neurons in the prefrontal cortex in schizophrenia.

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