Increased Grik4 Gene Dosage Causes Imbalanced Circuit Output and Human Disease-Related Behaviors
Summary: Altered glutamatergic neurotransmission is thought to contribute to mental disorders and neurodegenerative diseases. Copy-number variation in genes associated with glutamatergic synapses represents a source of genetic variability, possibly underlying neurological and mental disease suscepti...
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doaj-66d3b35b5a7e473faa50730aa62b85062020-11-25T01:31:30ZengElsevierCell Reports2211-12472018-06-01231338273838Increased Grik4 Gene Dosage Causes Imbalanced Circuit Output and Human Disease-Related BehaviorsVineet Arora0Valeria Pecoraro1M. Isabel Aller2Celia Román3Ana V. Paternain4Juan Lerma5Instituto de Neurociencias CSIC-UMH, 03550 San Juan de Alicante, SpainInstituto de Neurociencias CSIC-UMH, 03550 San Juan de Alicante, SpainInstituto de Neurociencias CSIC-UMH, 03550 San Juan de Alicante, SpainInstituto de Neurociencias CSIC-UMH, 03550 San Juan de Alicante, SpainInstituto de Neurociencias CSIC-UMH, 03550 San Juan de Alicante, SpainInstituto de Neurociencias CSIC-UMH, 03550 San Juan de Alicante, Spain; Corresponding authorSummary: Altered glutamatergic neurotransmission is thought to contribute to mental disorders and neurodegenerative diseases. Copy-number variation in genes associated with glutamatergic synapses represents a source of genetic variability, possibly underlying neurological and mental disease susceptibility. The GRIK4 gene encodes a high-affinity kainate receptor subunit of essentially unknown function, although de novo duplication of the 11q23.3-q24.1 locus to which it maps has been detected in autism and other disorders. To determine how changes in the dose of Grik4 affect synaptic activity, we studied mice overexpressing this gene in the forebrain. A mild gain in Grik4 enhances synaptic transmission, causing a persistent imbalance in inhibitory and excitatory activity and disturbing the circuits responsible for the main amygdala outputs. These changes in glutamatergic activity reverse when Grik4 levels are normalized; thus, they may account for the behavioral abnormalities in disorders like autism or schizophrenia. : Arora et al. show that an increase in Grik4 gene dose enhances the efficiency of synaptic transmission, causing a persistent circuit disequilibrium that alters the main amygdala outputs. This may account for the behavioral abnormalities observed in disorders like autism and schizophrenia. Keywords: hippocampus, amygdala, depression, anxiety, autism, schizophrenia, AMPA receptors, kainate receptors, GluK4, synaptic transmissionhttp://www.sciencedirect.com/science/article/pii/S2211124718308672 |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
Vineet Arora Valeria Pecoraro M. Isabel Aller Celia Román Ana V. Paternain Juan Lerma |
spellingShingle |
Vineet Arora Valeria Pecoraro M. Isabel Aller Celia Román Ana V. Paternain Juan Lerma Increased Grik4 Gene Dosage Causes Imbalanced Circuit Output and Human Disease-Related Behaviors Cell Reports |
author_facet |
Vineet Arora Valeria Pecoraro M. Isabel Aller Celia Román Ana V. Paternain Juan Lerma |
author_sort |
Vineet Arora |
title |
Increased Grik4 Gene Dosage Causes Imbalanced Circuit Output and Human Disease-Related Behaviors |
title_short |
Increased Grik4 Gene Dosage Causes Imbalanced Circuit Output and Human Disease-Related Behaviors |
title_full |
Increased Grik4 Gene Dosage Causes Imbalanced Circuit Output and Human Disease-Related Behaviors |
title_fullStr |
Increased Grik4 Gene Dosage Causes Imbalanced Circuit Output and Human Disease-Related Behaviors |
title_full_unstemmed |
Increased Grik4 Gene Dosage Causes Imbalanced Circuit Output and Human Disease-Related Behaviors |
title_sort |
increased grik4 gene dosage causes imbalanced circuit output and human disease-related behaviors |
publisher |
Elsevier |
series |
Cell Reports |
issn |
2211-1247 |
publishDate |
2018-06-01 |
description |
Summary: Altered glutamatergic neurotransmission is thought to contribute to mental disorders and neurodegenerative diseases. Copy-number variation in genes associated with glutamatergic synapses represents a source of genetic variability, possibly underlying neurological and mental disease susceptibility. The GRIK4 gene encodes a high-affinity kainate receptor subunit of essentially unknown function, although de novo duplication of the 11q23.3-q24.1 locus to which it maps has been detected in autism and other disorders. To determine how changes in the dose of Grik4 affect synaptic activity, we studied mice overexpressing this gene in the forebrain. A mild gain in Grik4 enhances synaptic transmission, causing a persistent imbalance in inhibitory and excitatory activity and disturbing the circuits responsible for the main amygdala outputs. These changes in glutamatergic activity reverse when Grik4 levels are normalized; thus, they may account for the behavioral abnormalities in disorders like autism or schizophrenia. : Arora et al. show that an increase in Grik4 gene dose enhances the efficiency of synaptic transmission, causing a persistent circuit disequilibrium that alters the main amygdala outputs. This may account for the behavioral abnormalities observed in disorders like autism and schizophrenia. Keywords: hippocampus, amygdala, depression, anxiety, autism, schizophrenia, AMPA receptors, kainate receptors, GluK4, synaptic transmission |
url |
http://www.sciencedirect.com/science/article/pii/S2211124718308672 |
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