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A mouse model of X-linked intellectual disability associated with impaired removal of histone methylation

A mouse model of X-linked intellectual disability associated with impaired removal of histone methylation
A mouse model of X-linked intellectual disability associated with impaired removal of histone methylation
Mutations in a number of chromatin modifiers are associated with human neurological disorders. KDM5C, a histone H3 lysine 4 di- and tri-methyl (H3K4me2/3)-specific demethylase, is frequently mutated in X-linked intellectual disability (XLID) patients. Here, we report that disruption of the mouse Kdm5c gene recapitulates adaptive and cognitive abnormalities observed in XLID, including impaired social behavior, memory deficits, and aggression. Kdm5c-knockout brains exhibit abnormal dendritic arborization, spine anomalies, and altered transcriptomes. In neurons, Kdm5c is recruited to promoters that harbor CpG islands decorated with high levels of H3K4me3, where it fine-tunes H3K4me3 levels. Kdm5c predominantly represses these genes, which include members of key pathways that regulate the development and function of neuronal circuitries. In summary, our mouse behavioral data strongly suggest that KDM5C mutations are causal to XLID. Furthermore, our findings suggest that loss of KDM5C function may impact gene expression in multiple regulatory pathways relevant to the clinical phenotypes.
2211-1247
1000-1009
Iwase, Shigeki
48c89f54-b1dc-4e7c-a344-6d380bd61cb7
Brookes, Emily
425dafc2-111b-4f6c-9336-f720c4ef8cac
Agarwal, Saurabh
03d86abb-b011-4b96-bcef-74ee0693dac3
Badeaux, Aimee I.
c907b429-cdec-48d0-93fb-7aca59e644f2
Ito, Hikaru
6ef9089d-f143-4241-896a-14aaba07dd88
Vallianatos, Christina N.
c0e53f6e-ee4e-450c-8090-a2af212d330f
Tomassy, Giulio Srubek
34047568-29a3-4683-91a9-78174a2448c5
Kasza, Tomas
c09004eb-ac56-4611-865d-9d70734c0eb1
Lin, Grace
75a11885-ea9b-4338-8fe9-3e25e7f1f45a
Thompson, Andrew
28a56c45-304d-4c3c-a8ff-b46c522258b5
Gu, Lei
14eefd40-ebc5-4647-8c6d-11543d2407be
Kwan, Kenneth Y.
159a6dd4-ead8-41a0-9002-1fad822e22a2
Chen, Chinfei
0e1f5a8a-3521-4af1-8222-fb7d3c43c28b
Sartor, Maureen A.
c428128c-d6a2-41eb-b70c-4fe90f79d99a
Egan, Brian
7424e136-1958-45b8-aa3c-6ab14e7dbfc6
Xu, Jun
d40f5936-bae9-4923-ad02-31243d7ed559
Shi, Yang
123f38c3-5fd5-42ea-95a4-695b1ebb668a
Iwase, Shigeki
48c89f54-b1dc-4e7c-a344-6d380bd61cb7
Brookes, Emily
425dafc2-111b-4f6c-9336-f720c4ef8cac
Agarwal, Saurabh
03d86abb-b011-4b96-bcef-74ee0693dac3
Badeaux, Aimee I.
c907b429-cdec-48d0-93fb-7aca59e644f2
Ito, Hikaru
6ef9089d-f143-4241-896a-14aaba07dd88
Vallianatos, Christina N.
c0e53f6e-ee4e-450c-8090-a2af212d330f
Tomassy, Giulio Srubek
34047568-29a3-4683-91a9-78174a2448c5
Kasza, Tomas
c09004eb-ac56-4611-865d-9d70734c0eb1
Lin, Grace
75a11885-ea9b-4338-8fe9-3e25e7f1f45a
Thompson, Andrew
28a56c45-304d-4c3c-a8ff-b46c522258b5
Gu, Lei
14eefd40-ebc5-4647-8c6d-11543d2407be
Kwan, Kenneth Y.
159a6dd4-ead8-41a0-9002-1fad822e22a2
Chen, Chinfei
0e1f5a8a-3521-4af1-8222-fb7d3c43c28b
Sartor, Maureen A.
c428128c-d6a2-41eb-b70c-4fe90f79d99a
Egan, Brian
7424e136-1958-45b8-aa3c-6ab14e7dbfc6
Xu, Jun
d40f5936-bae9-4923-ad02-31243d7ed559
Shi, Yang
123f38c3-5fd5-42ea-95a4-695b1ebb668a

Iwase, Shigeki, Brookes, Emily, Agarwal, Saurabh, Badeaux, Aimee I., Ito, Hikaru, Vallianatos, Christina N., Tomassy, Giulio Srubek, Kasza, Tomas, Lin, Grace, Thompson, Andrew, Gu, Lei, Kwan, Kenneth Y., Chen, Chinfei, Sartor, Maureen A., Egan, Brian, Xu, Jun and Shi, Yang (2016) A mouse model of X-linked intellectual disability associated with impaired removal of histone methylation. Cell Reports, 14 (5), 1000-1009. (doi:10.1016/j.celrep.2015.12.091).

Record type: Article

Abstract

Mutations in a number of chromatin modifiers are associated with human neurological disorders. KDM5C, a histone H3 lysine 4 di- and tri-methyl (H3K4me2/3)-specific demethylase, is frequently mutated in X-linked intellectual disability (XLID) patients. Here, we report that disruption of the mouse Kdm5c gene recapitulates adaptive and cognitive abnormalities observed in XLID, including impaired social behavior, memory deficits, and aggression. Kdm5c-knockout brains exhibit abnormal dendritic arborization, spine anomalies, and altered transcriptomes. In neurons, Kdm5c is recruited to promoters that harbor CpG islands decorated with high levels of H3K4me3, where it fine-tunes H3K4me3 levels. Kdm5c predominantly represses these genes, which include members of key pathways that regulate the development and function of neuronal circuitries. In summary, our mouse behavioral data strongly suggest that KDM5C mutations are causal to XLID. Furthermore, our findings suggest that loss of KDM5C function may impact gene expression in multiple regulatory pathways relevant to the clinical phenotypes.

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More information

e-pub ahead of print date: 21 January 2016
Published date: 1 February 2016

Identifiers

Local EPrints ID: 472081
URI: http://eprints.soton.ac.uk/id/eprint/472081
ISSN: 2211-1247
PURE UUID: bf9621e8-f072-474f-b667-038ab599b548
ORCID for Emily Brookes: ORCID iD orcid.org/0000-0003-2175-4349

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Date deposited: 25 Nov 2022 17:32
Last modified: 17 Mar 2024 04:14

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Contributors

Author: Shigeki Iwase
Author: Emily Brookes ORCID iD
Author: Saurabh Agarwal
Author: Aimee I. Badeaux
Author: Hikaru Ito
Author: Christina N. Vallianatos
Author: Giulio Srubek Tomassy
Author: Tomas Kasza
Author: Grace Lin
Author: Andrew Thompson
Author: Lei Gu
Author: Kenneth Y. Kwan
Author: Chinfei Chen
Author: Maureen A. Sartor
Author: Brian Egan
Author: Jun Xu
Author: Yang Shi

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