Hippocampal dysfunction in the Euchromatin histone methyltransferase 1 heterozygous knockout mouse model for Kleefstra syndrome

Euchromatin histone methyltransferase 1 (EHMT1) is a highly conserved protein that catalyzes mono- and dimethylation of histone H3 lysine 9, thereby epigenetically regulating transcription. Kleefstra syndrome (KS), is caused by haploinsufficiency of the EHMT1 gene, and is an example of an emerging g...

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Veröffentlicht in:	Human molecular genetics 2013-03, Vol.22 (5), p.852-866
Hauptverfasser:	Balemans, Monique C M, Kasri, Nael Nadif, Kopanitsa, Maksym V, Afinowi, Nurudeen O, Ramakers, Ger, Peters, Theo A, Beynon, Andy J, Janssen, Sanne M, van Summeren, Rik C J, Eeftens, Jorine M, Eikelenboom, Nathalie, Benevento, Marco, Tachibana, Makoto, Shinkai, Yoichi, Kleefstra, Tjitske, van Bokhoven, Hans, Van der Zee, Catharina E E M
Format:	Artikel
Sprache:	eng
Schlagworte:	Animals Chromosome Deletion Chromosomes, Human, Pair 9 - genetics Craniofacial Abnormalities - genetics Disease Models, Animal Heart Defects, Congenital - genetics Hippocampus - metabolism Hippocampus - pathology Histone-Lysine N-Methyltransferase - genetics Histone-Lysine N-Methyltransferase - metabolism Humans Intellectual Disability - genetics Intellectual Disability - physiopathology Learning Mice Mice, Knockout Pyramidal Cells - pathology Synapses - pathology
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creator	Balemans, Monique C M Kasri, Nael Nadif Kopanitsa, Maksym V Afinowi, Nurudeen O Ramakers, Ger Peters, Theo A Beynon, Andy J Janssen, Sanne M van Summeren, Rik C J Eeftens, Jorine M Eikelenboom, Nathalie Benevento, Marco Tachibana, Makoto Shinkai, Yoichi Kleefstra, Tjitske van Bokhoven, Hans Van der Zee, Catharina E E M
description	Euchromatin histone methyltransferase 1 (EHMT1) is a highly conserved protein that catalyzes mono- and dimethylation of histone H3 lysine 9, thereby epigenetically regulating transcription. Kleefstra syndrome (KS), is caused by haploinsufficiency of the EHMT1 gene, and is an example of an emerging group of intellectual disability (ID) disorders caused by genes encoding epigenetic regulators of neuronal gene activity. Little is known about the mechanisms underlying this disorder, prompting us to study the Euchromatin histone methyltransferase 1 heterozygous knockout (Ehmt1(+/-)) mice as a model for KS. In agreement with the cognitive disturbances observed in patients with KS, we detected deficits in fear extinction learning and both novel and spatial object recognition in Ehmt1(+/-) mice. These learning and memory deficits were associated with a significant reduction in dendritic arborization and the number of mature spines in hippocampal CA1 pyramidal neurons of Ehmt1(+/-) mice. In-depth analysis of the electrophysiological properties of CA3-CA1 synapses revealed no differences in basal synaptic transmission or theta-burst induced long-term potentiation (LTP). However, paired-pulse facilitation (PPF) was significantly increased in Ehmt1(+/-) neurons, pointing to a potential deficiency in presynaptic neurotransmitter release. Accordingly, a reduction in the frequency of miniature excitatory post-synaptic currents (mEPSCs) was observed in Ehmt1(+/-) neurons. These data demonstrate that Ehmt1 haploinsufficiency in mice leads to learning deficits and synaptic dysfunction, providing a possible mechanism for the ID phenotype in patients with KS.
doi_str_mv	10.1093/hmg/dds490
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Kleefstra syndrome (KS), is caused by haploinsufficiency of the EHMT1 gene, and is an example of an emerging group of intellectual disability (ID) disorders caused by genes encoding epigenetic regulators of neuronal gene activity. Little is known about the mechanisms underlying this disorder, prompting us to study the Euchromatin histone methyltransferase 1 heterozygous knockout (Ehmt1(+/-)) mice as a model for KS. In agreement with the cognitive disturbances observed in patients with KS, we detected deficits in fear extinction learning and both novel and spatial object recognition in Ehmt1(+/-) mice. These learning and memory deficits were associated with a significant reduction in dendritic arborization and the number of mature spines in hippocampal CA1 pyramidal neurons of Ehmt1(+/-) mice. In-depth analysis of the electrophysiological properties of CA3-CA1 synapses revealed no differences in basal synaptic transmission or theta-burst induced long-term potentiation (LTP). 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Kleefstra syndrome (KS), is caused by haploinsufficiency of the EHMT1 gene, and is an example of an emerging group of intellectual disability (ID) disorders caused by genes encoding epigenetic regulators of neuronal gene activity. Little is known about the mechanisms underlying this disorder, prompting us to study the Euchromatin histone methyltransferase 1 heterozygous knockout (Ehmt1(+/-)) mice as a model for KS. In agreement with the cognitive disturbances observed in patients with KS, we detected deficits in fear extinction learning and both novel and spatial object recognition in Ehmt1(+/-) mice. These learning and memory deficits were associated with a significant reduction in dendritic arborization and the number of mature spines in hippocampal CA1 pyramidal neurons of Ehmt1(+/-) mice. In-depth analysis of the electrophysiological properties of CA3-CA1 synapses revealed no differences in basal synaptic transmission or theta-burst induced long-term potentiation (LTP). 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Kleefstra syndrome (KS), is caused by haploinsufficiency of the EHMT1 gene, and is an example of an emerging group of intellectual disability (ID) disorders caused by genes encoding epigenetic regulators of neuronal gene activity. Little is known about the mechanisms underlying this disorder, prompting us to study the Euchromatin histone methyltransferase 1 heterozygous knockout (Ehmt1(+/-)) mice as a model for KS. In agreement with the cognitive disturbances observed in patients with KS, we detected deficits in fear extinction learning and both novel and spatial object recognition in Ehmt1(+/-) mice. These learning and memory deficits were associated with a significant reduction in dendritic arborization and the number of mature spines in hippocampal CA1 pyramidal neurons of Ehmt1(+/-) mice. In-depth analysis of the electrophysiological properties of CA3-CA1 synapses revealed no differences in basal synaptic transmission or theta-burst induced long-term potentiation (LTP). However, paired-pulse facilitation (PPF) was significantly increased in Ehmt1(+/-) neurons, pointing to a potential deficiency in presynaptic neurotransmitter release. Accordingly, a reduction in the frequency of miniature excitatory post-synaptic currents (mEPSCs) was observed in Ehmt1(+/-) neurons. These data demonstrate that Ehmt1 haploinsufficiency in mice leads to learning deficits and synaptic dysfunction, providing a possible mechanism for the ID phenotype in patients with KS.</abstract><cop>England</cop><pmid>23175442</pmid><doi>10.1093/hmg/dds490</doi><tpages>15</tpages><oa>free_for_read</oa></addata></record>
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source	Oxford University Press Journals All Titles (1996-Current); MEDLINE; EZB-FREE-00999 freely available EZB journals; Alma/SFX Local Collection
subjects	Animals Chromosome Deletion Chromosomes, Human, Pair 9 - genetics Craniofacial Abnormalities - genetics Disease Models, Animal Heart Defects, Congenital - genetics Hippocampus - metabolism Hippocampus - pathology Histone-Lysine N-Methyltransferase - genetics Histone-Lysine N-Methyltransferase - metabolism Humans Intellectual Disability - genetics Intellectual Disability - physiopathology Learning Mice Mice, Knockout Pyramidal Cells - pathology Synapses - pathology
title	Hippocampal dysfunction in the Euchromatin histone methyltransferase 1 heterozygous knockout mouse model for Kleefstra syndrome
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