Modulation of behavioral networks by selective interneuronal inactivation

Schmidt, Martin; Horváth, Szatmár; Ebert, Philip J.; Norris, Jeremy L.; Seeley, Erin H.; Brown, Jacquelyn A.; Gellért, Levente; Everheart, M.; Garbett, Krassimira A.; Grice, Taylor; Caprioli, Richard M.; Mirnics, Károly

doi:10.1038/mp.2013.167

Cited by 31 publications

(56 citation statements)

References 51 publications

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“…CCK þ interneurons are the only interneuron cell type that expresses the cannabinoid receptor CNR1 (Eggan et al, 2010), which silences CCK þ interneurons (Losonczy et al, 2004) and disrupts the hippocampus (Hajos et al, 2000;Katona et al, 1999) and amygdala (Katona et al, 2001;Tan et al, 2010) function. Furthermore, GAD1 suppression in CCK þ /CNR1 þ interneurons leads to dysfunctional amygdala-dependent behavior and aminergic signaling Schmidt et al, 2013). Finally, mild stress during development results in epigenetic-mediated reduction of dopaminergic cell function in DISC1 mutant mice (Niwa et al, 2013), whereas the loss of DISC1 in the frontal cortex of adult rats increased stress sensitivity and resulted in cognitive impairments that were not observed in rats with normal DISC1 expression (Gamo et al, 2013).…”

Section: Environmental Insults Disrupt Gabaergic System Developmentmentioning

confidence: 99%

“…During adolescence, when cells have finished migrating and cortical circuits are maturing, GAD1 suppression decreases axonal branching in PV þ cells in a cell autonomous manner (Chattopadhyaya et al, 2007) and increases pyramidal cell activity (Lazarus et al, 2013). Adult mice with GAD1 gene expression deficits in restricted interneuron populations have distinct molecular and behavioral dysfunction depending on the affected cell type Kvitsiani et al, 2013;Schmidt et al, 2013). These data provide functional context to postmortem studies that consistently implicate diverse interneuron cell types in schizophrenia (Hashimoto et al, 2003(Hashimoto et al, , 2008aHoftman et al, 2013;Iritani et al, 2000;Kuromitsu et al, 2001;Maldonado-Aviles et al, 2009;Mellios et al, 2009;Morris et al, 2008;Volk et al, 2012) and suggest that GABAergic gene expression deficits seen in post-mortem studies of patients with schizophrenia actively contribute to important aspects of brain development and behavior (Lewis et al, 2005;Marin, 2012;Schmidt and Mirnics, 2012).…”

Section: Gene Effects Converge Onto Gaba System Developmentmentioning

confidence: 99%

“…In fact, our understanding of the developmental importance of the GABAergic system comes largely from transgenic mouse research. Simply put, while there are no (and perhaps never will be) 'true' rodent models of schizophrenia or 'schizophrenic mice', a combined use of transgenic technology and environmental challenges in rodent models is essential for understanding genes, cognition, and mental disorders Garbett et al, 2010Garbett et al, , 2012Jaaro-Peled et al, 2009;Levitt, 2005;Papaleo et al, 2012;Schmidt et al, 2013;Schmidt and Mirnics, 2012;Smith et al, 2007).…”

Section: Future Research Directionsmentioning

confidence: 99%

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Neurodevelopment, GABA System Dysfunction, and Schizophrenia

Schmidt

Mirnics

2014

Neuropsychopharmacol

196

130

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The origins of schizophrenia have eluded clinicians and researchers since Kraepelin and Bleuler began documenting their findings. However, large clinical research efforts in recent decades have identified numerous genetic and environmental risk factors for schizophrenia. The combined data strongly support the neurodevelopmental hypothesis of schizophrenia and underscore the importance of the common converging effects of diverse insults. In this review, we discuss the evidence that genetic and environmental risk factors that predispose to schizophrenia disrupt the development and normal functioning of the GABAergic system.

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Section: Environmental Insults Disrupt Gabaergic System Developmentmentioning

confidence: 99%

Section: Gene Effects Converge Onto Gaba System Developmentmentioning

confidence: 99%

Section: Future Research Directionsmentioning

confidence: 99%

See 1 more Smart Citation

Neurodevelopment, GABA System Dysfunction, and Schizophrenia

Schmidt

Mirnics

2014

Neuropsychopharmacol

196

130

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“…Considering that the brain pathophysiology of psychiatric disorders can be only analyzed in humans by non-invasive methods, animal models are the preferred choice to examine behavioral disturbances and associated structural and functional brain alterations that arise from genetic manipulations (Brown et al, 2015; Schmidt et al, 2014; Schmidt and Mirnics, 2012). Although these experiments are essential, psychiatric disorders are uniquely human conditions, and cannot be interpreted in the disease context without understanding the events in the diseased tissue (Nestler and Hyman, 2010).…”

Section: The Need For Multiple Model Systemsmentioning

confidence: 99%

Human dermal fibroblasts in psychiatry research

et al. 2016

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Summary In order to decipher the disease etiology, progression and treatment of multifactorial human brain diseases we utilize a host of different experimental models. Recently, patient-derived human dermal fibroblast (HDF) cultures have re-emerged as promising in vitro functional system for examining various cellular, molecular, metabolic and (patho)physiological states and traits of psychiatric disorders. HDF studies serve as a powerful complement to postmortem and animal studies, and often appear to be informative about the altered homeostasis in neural tissue. Studies of HDFs from patients with schizophrenia, depression, bipolar disorder, autism, attention deficit and hyperactivity disorder and other psychiatric disorders have significantly advanced our understanding of these devastating diseases. These reports unequivocally prove that signal transduction, redox homeostasis, circadian rhythms and gene*environment interactions are all amenable for assessment by the HDF model. Furthermore, the reported findings suggest that this underutilized patient biomaterial, combined with modern molecular biology techniques, may have both diagnostic and prognostic value, including prediction of response to therapeutic agents.

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“…Genetic engineering-induced GAD1/GAD67 deficiency in cortical interneurons is detrimental for neuronal signaling and cognition and social interactions (Belforte et al, 2010; Chattopadhyaya et al, 2007; Lazarus et al, 2013; Schmidt et al, 2014). Whether or not an experimentally induced increase in Gad1/Gad67 would elicit therapeutic effects in preclinical SCZ models remains to be determined.…”

Section: Looking Forward: Targeted Epigenetic Interventions At the Gamentioning

confidence: 99%

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

Mitchell

Jiang

Peter

et al. 2015

Schizophrenia Research

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Expression of GAD1 GABA synthesis enzyme is highly regulated by neuronal activity and reaches mature levels in prefrontal cortex not before adolescence. A significant portion of cases diagnosed with schizophrenia show deficits in GAD1 RNA and protein levels in multiple areas of adult cerebral cortex, possibly reflecting molecular or cellular defects in subtypes of GABAergic interneurons essential for network synchronization and cognition. Here, we review 20 years of progress towards a better understanding of disease-related regulation of GAD1 gene expression. For example, deficits in cortical GAD1 RNA in some cases of schizophrenia are associated with changes in the epigenetic architecture of the promoter, affecting DNA methylation patterns and nucleosomal histone modifications. These localized chromatin defects at the 5′end of GAD1 are superimposed by disordered locus-specific chromosomal conformations, including weakening of long-range promoter-enhancer loopings and physical disconnection of GAD1 core promoter sequences from cis-regulatory elements positioned 50 kilobases further upstream. Studies on the 3-dimensional architecture of the GAD1 locus in neurons, including developmentally regulated higher order chromatin compromised by the disease process, together with exploration of locus-specific epigenetic interventions in animal models, could pave the way for future treatments of psychosis and schizophrenia.

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Modulation of behavioral networks by selective interneuronal inactivation

Cited by 31 publications

References 51 publications

Neurodevelopment, GABA System Dysfunction, and Schizophrenia

Neurodevelopment, GABA System Dysfunction, and Schizophrenia

Human dermal fibroblasts in psychiatry research

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

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