Hyperactivation of HUSH complex function by Charcot–Marie–Tooth disease mutation in MORC2

Paul Lehner and colleagues identify an essential role for MORC2 in HUSH complex–mediated epigenetic silencing. They show that loss of MORC2 causes chromatin decompaction at HUSH-target loci and that a MORC2 mutation that causes Charcot–Marie–Tooth disease results in hyperactivation of HUSH-mediated...

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Published in	Nature genetics Vol. 49; no. 7; pp. 1035 - 1044
Main Authors	Tchasovnikarova, Iva A, Timms, Richard T, Douse, Christopher H, Roberts, Rhys C, Dougan, Gordon, Kingston, Robert E, Modis, Yorgo, Lehner, Paul J
Format	Journal Article
Language	English
Published	New York Nature Publishing Group US 01.07.2017 Nature Publishing Group
Subjects	13/1 13/109 13/31 14/19 38/15 38/22 38/23 38/70 38/88 38/90 38/91 42/47 631/208/177 631/337/176 692/699/375/430 82/83 Adenosine triphosphatase Adenosine Triphosphatases - metabolism Agriculture Analysis Animal Genetics and Genomics Biomedicine Cancer Research Charcot-Marie-Tooth disease Charcot-Marie-Tooth Disease - genetics Charcot-Marie-Tooth Disease - metabolism Chromatin Chromatin Assembly and Disassembly - genetics CRISPR CRISPR-Cas Systems Derepression Epigenetic Repression - genetics Epigenetics Gene Function Gene Silencing Genetic aspects Genetic screening Genetic testing Genomes HeLa Cells Heterochromatin Heterochromatin - genetics Heterochromatin - metabolism Histone Code Histone-Lysine N-Methyltransferase Histones - metabolism Human Genetics Humans Hyperactivity Lysine - chemistry Methylation Multiprotein Complexes Mutation Mutation, Missense Neurons - metabolism Protein Domains Protein Interaction Mapping Protein Methyltransferases - metabolism Protein Processing, Post-Translational Proteins Transcription Transcription Factors - genetics Transcription Factors - physiology Transgenes
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ISSN	1061-4036 1546-1718 1546-1718
DOI	10.1038/ng.3878

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Abstract	Paul Lehner and colleagues identify an essential role for MORC2 in HUSH complex–mediated epigenetic silencing. They show that loss of MORC2 causes chromatin decompaction at HUSH-target loci and that a MORC2 mutation that causes Charcot–Marie–Tooth disease results in hyperactivation of HUSH-mediated repression in neuronal cells. Dominant mutations in the MORC2 gene have recently been shown to cause axonal Charcot–Marie–Tooth (CMT) disease, but the cellular function of MORC2 is poorly understood. Here, through a genome-wide CRISPR–Cas9-mediated forward genetic screen, we identified MORC2 as an essential gene required for epigenetic silencing by the HUSH complex. HUSH recruits MORC2 to target sites in heterochromatin. We exploited a new method, differential viral accessibility (DIVA), to show that loss of MORC2 results in chromatin decompaction at these target loci, which is concomitant with a loss of H3K9me3 deposition and transcriptional derepression. The ATPase activity of MORC2 is critical for HUSH-mediated silencing, and the most common alteration affecting the ATPase domain in CMT patients (p.Arg252Trp) hyperactivates HUSH-mediated repression in neuronal cells. These data define a critical role for MORC2 in epigenetic silencing by the HUSH complex and provide a mechanistic basis underpinning the role of MORC2 mutations in CMT disease.
AbstractList	Dominant mutations in the MORC2 gene have recently been shown to cause axonal Charcot-Marie-Tooth (CMT) disease, but the cellular function of MORC2 is poorly understood. Here, through a genome-wide CRISPR-Cas9-mediated forward genetic screen, we identified MORC2 as an essential gene required for epigenetic silencing by the HUSH complex. HUSH recruits MORC2 to target sites in heterochromatin. We exploited a new method, differential viral accessibility (DIVA), to show that loss of MORC2 results in chromatin decompaction at these target loci, which is concomitant with a loss of H3K9me3 deposition and transcriptional derepression. The ATPase activity of MORC2 is critical for HUSH-mediated silencing, and the most common alteration affecting the ATPase domain in CMT patients (p.Arg252Trp) hyperactivates HUSH-mediated repression in neuronal cells. These data define a critical role for MORC2 in epigenetic silencing by the HUSH complex and provide a mechanistic basis underpinning the role of MORC2 mutations in CMT disease. Dominant mutations in the MORC2 gene have recently been shown to cause axonal Charcot-Marie-Tooth (CMT) disease, but the cellular function of MORC2 is poorly understood. Here, through a genome-wide CRISPR-Cas9-mediated forward genetic screen, we identified MORC2 as an essential gene required for epigenetic silencing by the HUSH complex. HUSH recruits MORC2 to target sites in heterochromatin. We exploited a new method, differential viral accessibility (DIVA), to show that loss of MORC2 results in chromatin decompaction at these target loci, which is concomitant with a loss of H3K9me3 deposition and transcriptional derepression. The ATPase activity of MORC2 is critical for HUSH-mediated silencing, and the most common alteration affecting the ATPase domain in CMT patients (p.Arg252Trp) hyperactivates HUSH-mediated repression in neuronal cells. These data define a critical role for MORC2 in epigenetic silencing by the HUSH complex and provide a mechanistic basis underpinning the role of MORC2 mutations in CMT disease.Dominant mutations in the MORC2 gene have recently been shown to cause axonal Charcot-Marie-Tooth (CMT) disease, but the cellular function of MORC2 is poorly understood. Here, through a genome-wide CRISPR-Cas9-mediated forward genetic screen, we identified MORC2 as an essential gene required for epigenetic silencing by the HUSH complex. HUSH recruits MORC2 to target sites in heterochromatin. We exploited a new method, differential viral accessibility (DIVA), to show that loss of MORC2 results in chromatin decompaction at these target loci, which is concomitant with a loss of H3K9me3 deposition and transcriptional derepression. The ATPase activity of MORC2 is critical for HUSH-mediated silencing, and the most common alteration affecting the ATPase domain in CMT patients (p.Arg252Trp) hyperactivates HUSH-mediated repression in neuronal cells. These data define a critical role for MORC2 in epigenetic silencing by the HUSH complex and provide a mechanistic basis underpinning the role of MORC2 mutations in CMT disease. Paul Lehner and colleagues identify an essential role for MORC2 in HUSH complex–mediated epigenetic silencing. They show that loss of MORC2 causes chromatin decompaction at HUSH-target loci and that a MORC2 mutation that causes Charcot–Marie–Tooth disease results in hyperactivation of HUSH-mediated repression in neuronal cells. Dominant mutations in the MORC2 gene have recently been shown to cause axonal Charcot–Marie–Tooth (CMT) disease, but the cellular function of MORC2 is poorly understood. Here, through a genome-wide CRISPR–Cas9-mediated forward genetic screen, we identified MORC2 as an essential gene required for epigenetic silencing by the HUSH complex. HUSH recruits MORC2 to target sites in heterochromatin. We exploited a new method, differential viral accessibility (DIVA), to show that loss of MORC2 results in chromatin decompaction at these target loci, which is concomitant with a loss of H3K9me3 deposition and transcriptional derepression. The ATPase activity of MORC2 is critical for HUSH-mediated silencing, and the most common alteration affecting the ATPase domain in CMT patients (p.Arg252Trp) hyperactivates HUSH-mediated repression in neuronal cells. These data define a critical role for MORC2 in epigenetic silencing by the HUSH complex and provide a mechanistic basis underpinning the role of MORC2 mutations in CMT disease.
Audience	Academic
Author	Roberts, Rhys C Dougan, Gordon Kingston, Robert E Lehner, Paul J Timms, Richard T Douse, Christopher H Modis, Yorgo Tchasovnikarova, Iva A
Author_xml	– sequence: 1 givenname: Iva A orcidid: 0000-0002-0477-0956 surname: Tchasovnikarova fullname: Tchasovnikarova, Iva A organization: Department of Medicine, Cambridge Institute for Medical Research, Department of Molecular Biology, and Department of Genetics, Massachusetts General Hospital, Harvard Medical School – sequence: 2 givenname: Richard T surname: Timms fullname: Timms, Richard T organization: Department of Medicine, Cambridge Institute for Medical Research – sequence: 3 givenname: Christopher H surname: Douse fullname: Douse, Christopher H organization: Department of Medicine, University of Cambridge, MRC Laboratory of Molecular Biology – sequence: 4 givenname: Rhys C orcidid: 0000-0003-0008-4649 surname: Roberts fullname: Roberts, Rhys C organization: Department of Clinical Neurosciences, Cambridge Institute for Medical Research – sequence: 5 givenname: Gordon surname: Dougan fullname: Dougan, Gordon organization: Wellcome Trust Sanger Institute – sequence: 6 givenname: Robert E surname: Kingston fullname: Kingston, Robert E organization: Department of Molecular Biology, and Department of Genetics, Massachusetts General Hospital, Harvard Medical School – sequence: 7 givenname: Yorgo orcidid: 0000-0002-6084-0429 surname: Modis fullname: Modis, Yorgo organization: Department of Medicine, University of Cambridge, MRC Laboratory of Molecular Biology – sequence: 8 givenname: Paul J surname: Lehner fullname: Lehner, Paul J email: pjl30@cam.ac.uk organization: Department of Medicine, Cambridge Institute for Medical Research
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PublicationTitle	Nature genetics
PublicationTitleAbbrev	Nat Genet
PublicationTitleAlternate	Nat Genet
PublicationYear	2017
Publisher	Nature Publishing Group US Nature Publishing Group
Publisher_xml	– name: Nature Publishing Group US – name: Nature Publishing Group
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Snippet	Paul Lehner and colleagues identify an essential role for MORC2 in HUSH complex–mediated epigenetic silencing. They show that loss of MORC2 causes chromatin... Dominant mutations in the MORC2 gene have recently been shown to cause axonal Charcot-Marie-Tooth (CMT) disease, but the cellular function of MORC2 is poorly...
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Title	Hyperactivation of HUSH complex function by Charcot–Marie–Tooth disease mutation in MORC2
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