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      Novel Findings from CNVs Implicate Inhibitory and Excitatory Signaling Complexes in Schizophrenia.

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          Abstract

          We sought to obtain novel insights into schizophrenia pathogenesis by exploiting the association between the disorder and chromosomal copy number (CNV) burden. We combined data from 5,745 cases and 10,675 controls with other published datasets containing genome-wide CNV data. In this much-enlarged sample of 11,355 cases and 16,416 controls, we show for the first time that case CNVs are enriched for genes involved in GABAergic neurotransmission. Consistent with non-genetic reports of GABAergic deficits in schizophrenia, our findings now show disrupted GABAergic signaling is of direct causal relevance, rather than a secondary effect or due to confounding. Additionally, we independently replicate and greatly extend previous findings of CNV enrichment among genes involved in glutamatergic signaling. Given the strong functional links between the major inhibitory GABAergic and excitatory glutamatergic systems, our findings converge on a broad, coherent set of pathogenic processes, providing firm foundations for studies aimed at dissecting disease mechanisms.

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          Neocortical excitation/inhibition balance in information processing and social dysfunction.

          Ofer Yizhar, Lief Fenno, Matthias Prigge (2011)
          Severe behavioural deficits in psychiatric diseases such as autism and schizophrenia have been hypothesized to arise from elevations in the cellular balance of excitation and inhibition (E/I balance) within neural microcircuitry. This hypothesis could unify diverse streams of pathophysiological and genetic evidence, but has not been susceptible to direct testing. Here we design and use several novel optogenetic tools to causally investigate the cellular E/I balance hypothesis in freely moving mammals, and explore the associated circuit physiology. Elevation, but not reduction, of cellular E/I balance within the mouse medial prefrontal cortex was found to elicit a profound impairment in cellular information processing, associated with specific behavioural impairments and increased high-frequency power in the 30-80 Hz range, which have both been observed in clinical conditions in humans. Consistent with the E/I balance hypothesis, compensatory elevation of inhibitory cell excitability partially rescued social deficits caused by E/I balance elevation. These results provide support for the elevated cellular E/I balance hypothesis of severe neuropsychiatric disease-related symptoms.
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            Abnormal neural oscillations and synchrony in schizophrenia.

            Peter Uhlhaas, Wolf Singer (2010)
            Converging evidence from electrophysiological, physiological and anatomical studies suggests that abnormalities in the synchronized oscillatory activity of neurons may have a central role in the pathophysiology of schizophrenia. Neural oscillations are a fundamental mechanism for the establishment of precise temporal relationships between neuronal responses that are in turn relevant for memory, perception and consciousness. In patients with schizophrenia, the synchronization of beta- and gamma-band activity is abnormal, suggesting a crucial role for dysfunctional oscillations in the generation of the cognitive deficits and other symptoms of the disorder. Dysfunctional oscillations may arise owing to anomalies in the brain's rhythm-generating networks of GABA (gamma-aminobutyric acid) interneurons and in cortico-cortical connections.
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              De novo gene disruptions in children on the autistic spectrum.

              Ivan Iossifov, Michael Ronemus, Dan Levy (2012)
              Exome sequencing of 343 families, each with a single child on the autism spectrum and at least one unaffected sibling, reveal de novo small indels and point substitutions, which come mostly from the paternal line in an age-dependent manner. We do not see significantly greater numbers of de novo missense mutations in affected versus unaffected children, but gene-disrupting mutations (nonsense, splice site, and frame shifts) are twice as frequent, 59 to 28. Based on this differential and the number of recurrent and total targets of gene disruption found in our and similar studies, we estimate between 350 and 400 autism susceptibility genes. Many of the disrupted genes in these studies are associated with the fragile X protein, FMRP, reinforcing links between autism and synaptic plasticity. We find FMRP-associated genes are under greater purifying selection than the remainder of genes and suggest they are especially dosage-sensitive targets of cognitive disorders. Copyright © 2012 Elsevier Inc. All rights reserved.
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                Author and article information

                Journal
                Journal ID (iso-abbrev): Neuron
                Title: Neuron
                Publisher: Elsevier BV
                ISSN (Electronic): 1097-4199
                ISSN (Print): 0896-6273
                Publication date (Electronic): Jun 03 2015
                Volume: 86
                Issue: 5
                Affiliations
                [1 ] MRC Centre for Neuropsychiatric Genetics and Genomics, Institute of Psychological Medicine and Clinical Neurosciences, Cardiff University, Cardiff CF14 4XN, UK. Electronic address: pocklingtonaj@cardiff.ac.uk.
                [2 ] MRC Centre for Neuropsychiatric Genetics and Genomics, Institute of Psychological Medicine and Clinical Neurosciences, Cardiff University, Cardiff CF14 4XN, UK.
                [3 ] Stanley Center for Psychiatric Research, The Broad Institute of MIT and Harvard, 75 Ames Street, Cambridge, MA 02142, USA.
                [4 ] Stanley Center for Psychiatric Research, The Broad Institute of MIT and Harvard, 75 Ames Street, Cambridge, MA 02142, USA; Department of Genetics, Harvard Medical School, 77 Avenue Louis Pasteur, Boston, MA 02115, USA.
                [5 ] MRC Centre for Neuropsychiatric Genetics and Genomics, Institute of Psychological Medicine and Clinical Neurosciences, Cardiff University, Cardiff CF14 4XN, UK. Electronic address: odonovanmc@cardiff.ac.uk.
                Article
                Publisher Item ID: S0896-6273(15)00372-4
                DOI: 10.1016/j.neuron.2015.04.022
                PMC ID: 4460187
                PubMed ID: 26050040
                SO-VID: 6218bb77-da10-4081-acf0-a81f040f33d4
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