GAD67 Deficiency in Parvalbumin Interneurons Produces Deficits in Inhibitory Transmission and Network Disinhibition in Mouse Prefrontal Cortex

Lazarus, Matthew S.; Krishnan, Keerthi; Huang, Z. Josh

doi:10.1093/cercor/bht322

Cited by 96 publications

(79 citation statements)

References 50 publications

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“…Haploinsufficiency of the GAD67 gene in a subset of GABAergic neurons, primarily in PV neurons, gives rise to schizophrenia-related endophenotypes and alterations in both excitatory and inhibitory synaptic functions. These findings are consistent, in several respects, with results of other reports (Brown et al, 2015;Lazarus et al, 2013). Therefore, our findings support the hypothesis that GAD67 deficiency is a possible common pathway that induces the pathogenesis of schizophrenia and provide a novel link between GAD67 deficiency and impaired NMDA-mediated synaptic transmission.…”

Section: Gad67 Deficiency In Schizophreniasupporting

confidence: 93%

Glutamate Decarboxylase 67 Deficiency in a Subset of GABAergic Neurons Induces Schizophrenia-Related Phenotypes

Fujihara

Miwa

Kakizaki

et al. 2015

Neuropsychopharmacol

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Decreased expression of the GABA synthetic enzyme glutamate decarboxylase 67 (GAD67) in a subset of GABAergic neurons, including parvalbumin (PV)-expressing neurons, has been observed in postmortem brain studies of schizophrenics and in animal models of schizophrenia. However, it is unclear whether and how the perturbations of GAD67-mediated GABA synthesis and signaling contribute to the pathogenesis of schizophrenia. To address this issue, we generated the mice lacking GAD67 primarily in PV neurons and characterized them with focus on schizophrenia-related parameters. We found that heterozygous mutant mice exhibited schizophrenia-related behavioral abnormalities such as deficits in prepulse inhibition, MK-801 sensitivity, and social memory. Furthermore, we observed reduced inhibitory synaptic transmission, altered properties of NMDA receptor-mediated synaptic responses in pyramidal neurons, and increased spine density in hippocampal CA1 apical dendrites, suggesting a possible link between GAD67 deficiency and disturbed glutamatergic excitatory synaptic functions in schizophrenia. Thus, our results indicate that the mice heterozygous for GAD67 deficiency primarily in PV neurons share several neurochemical and behavioral abnormalities with schizophrenia, offering a novel tool for addressing the underlying pathophysiology of schizophrenia.

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Section: Gad67 Deficiency In Schizophreniasupporting

confidence: 93%

Glutamate Decarboxylase 67 Deficiency in a Subset of GABAergic Neurons Induces Schizophrenia-Related Phenotypes

Fujihara

Miwa

Kakizaki

et al. 2015

Neuropsychopharmacol

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“…It is now well established, largely from studies in rodent primary visual cortex, that the maturation of GABAergic inhibition mediated by a fast-spiking PV interneuron network is a crucial mechanism for triggering the onset and regulating the progression of the critical period for functional wiring in V1 (16,46). Upon eye opening at ∼P13, visual experience stimulates substantial and progressive activity-dependent maturation of PV cell morphology, connectivity, and physiological properties (18,24,43,47). Visual acuity of MeCP2 −/y mice is comparable to that of WT mice at the time of eye opening, as measured by an optomotor task (21).…”

Section: Discussionmentioning

confidence: 99%

“…However, 2-3 d after vision onset (by P15), we found substantial molecular changes (e.g., in GAD67, GAD65, vGAT, PV, and PNN), especially in PV cells, which are indicative of physiological changes. As a rate-limiting GABA synthetic enzyme, GAD67 expression is highly sensitive to input and network activity and directly impacts the magnitude GABAergic transmission (43,48). Because GAD67 is expressed in all cortical GABAergic neurons and yet appears to manifest cell-typespecific regulation (49), it is crucial to examine activity regulation of GAD67 transcription with laminar and cell-type resolution.…”

Section: Discussionmentioning

confidence: 99%

“…Among the several molecular alterations in V1 of MeCP2 −/y mice, GAD67 likely has the most significant effect on cellular/ vesicular GABA contents and directly impacts the strength of GABA transmission (43). To determine whether the precocious rise in GAD67 expression after eye opening in MeCP2 −/y mice is a key event in triggering an earlier onset of the critical period, we reduced GAD67 expression by crossing a germ-line gad1 +/− heterozygous allele into the MeCP2 −/y background.…”

Section: Rescue Of Critical Period Onset By Gad67 Reduction In Mecp2mentioning

confidence: 99%

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MeCP2 regulates the timing of critical period plasticity that shapes functional connectivity in primary visual cortex

Krishnan

Wang

et al. 2015

Proc. Natl. Acad. Sci. U.S.A.

122

169

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Mutations in methyl-CpG-binding protein 2 (MeCP2) cause Rett syndrome, an autism spectrum-associated disorder with a host of neurological and sensory symptoms, but the pathogenic mechanisms remain elusive. Neuronal circuits are shaped by experience during critical periods of heightened plasticity. The maturation of cortical GABA inhibitory circuitry, the parvalbumin + (PV + ) fast-spiking interneurons in particular, is a key component that regulates the initiation and termination of the critical period. Using MeCP2-null mice, we examined experience-dependent development of neural circuits in the primary visual cortex. The functional maturation of parvalbumin interneurons was accelerated upon vision onset, as indicated by elevated GABA synthetic enzymes, vesicular GABA transporter, perineuronal nets, and enhanced GABA transmission among PV interneurons. These changes correlated with a precocious onset and closure of critical period and deficient binocular visual function in mature animals. Reduction of GAD67 expression rescued the precocious opening of the critical period, suggesting its major role in MECP2-mediated regulation of experience-driven circuit development. Our results identify molecular changes in a defined cortical cell type and link aberrant developmental trajectory to functional deficits in a model of neuropsychiatric disorder.critical period plasticity | parvalbumin interneurons | visual cortex | Rett syndrome | MeCP2

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“…PV þ interneurons are selectively disrupted by exogenous GABA potentiation (Haas et al, 2013;Levav-Rabkin et al, 2010). 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).…”

Section: Gene Effects Converge Onto Gaba System Developmentmentioning

confidence: 99%

Neurodevelopment, GABA System Dysfunction, and Schizophrenia

Schmidt

Mirnics

2014

Neuropsychopharmacol

180

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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GAD67 Deficiency in Parvalbumin Interneurons Produces Deficits in Inhibitory Transmission and Network Disinhibition in Mouse Prefrontal Cortex

Cited by 96 publications

References 50 publications

Glutamate Decarboxylase 67 Deficiency in a Subset of GABAergic Neurons Induces Schizophrenia-Related Phenotypes

Glutamate Decarboxylase 67 Deficiency in a Subset of GABAergic Neurons Induces Schizophrenia-Related Phenotypes

MeCP2 regulates the timing of critical period plasticity that shapes functional connectivity in primary visual cortex

Neurodevelopment, GABA System Dysfunction, and Schizophrenia

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