Neuropathic MORC2 mutations perturb GHKL ATPase dimerization dynamics and epigenetic silencing by multiple structural mechanisms
Missense mutations in MORC2 cause neuropathies including spinal muscular atrophy and Charcot–Marie–Tooth disease. We recently identified MORC2 as an effector of epigenetic silencing by the human silencing hub (HUSH). Here we report the biochemical and cellular activities of MORC2 variants, alongside...
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| Published in | Nature communications Vol. 9; no. 1; pp. 651 - 15 |
|---|---|
| Main Authors | , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
London
Nature Publishing Group UK
13.02.2018
Nature Publishing Group Nature Portfolio |
| Subjects | |
| Online Access | Get full text |
| ISSN | 2041-1723 2041-1723 |
| DOI | 10.1038/s41467-018-03045-x |
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| Abstract | Missense mutations in
MORC2
cause neuropathies including spinal muscular atrophy and Charcot–Marie–Tooth disease. We recently identified MORC2 as an effector of epigenetic silencing by the human silencing hub (HUSH). Here we report the biochemical and cellular activities of MORC2 variants, alongside crystal structures of wild-type and neuropathic forms of a human MORC2 fragment comprising the GHKL-type ATPase module and CW-type zinc finger. This fragment dimerizes upon binding ATP and contains a hinged, functionally critical coiled-coil insertion absent in other GHKL ATPases. We find that dimerization and DNA binding of the MORC2 ATPase module transduce HUSH-dependent silencing. Disease mutations change the dynamics of dimerization by distinct structural mechanisms: destabilizing the ATPase-CW module, trapping the ATP lid, or perturbing the dimer interface. These defects lead to the modulation of HUSH function, thus providing a molecular basis for understanding MORC2-associated neuropathies.
Microrchidia CW-type zinc finger protein 2 (MORC2) is an effector of epigenetic silencing by the human silencing hub (HUSH). Here the authors present the crystal structures of MORC2 and disease-causing MORC2 mutants and give mechanistic insights into how MORC2 mediates HUSH-dependent silencing. |
|---|---|
| AbstractList | Missense mutations in
MORC2
cause neuropathies including spinal muscular atrophy and Charcot–Marie–Tooth disease. We recently identified MORC2 as an effector of epigenetic silencing by the human silencing hub (HUSH). Here we report the biochemical and cellular activities of MORC2 variants, alongside crystal structures of wild-type and neuropathic forms of a human MORC2 fragment comprising the GHKL-type ATPase module and CW-type zinc finger. This fragment dimerizes upon binding ATP and contains a hinged, functionally critical coiled-coil insertion absent in other GHKL ATPases. We find that dimerization and DNA binding of the MORC2 ATPase module transduce HUSH-dependent silencing. Disease mutations change the dynamics of dimerization by distinct structural mechanisms: destabilizing the ATPase-CW module, trapping the ATP lid, or perturbing the dimer interface. These defects lead to the modulation of HUSH function, thus providing a molecular basis for understanding MORC2-associated neuropathies.
Microrchidia CW-type zinc finger protein 2 (MORC2) is an effector of epigenetic silencing by the human silencing hub (HUSH). Here the authors present the crystal structures of MORC2 and disease-causing MORC2 mutants and give mechanistic insights into how MORC2 mediates HUSH-dependent silencing. Missense mutations in MORC2 cause neuropathies including spinal muscular atrophy and Charcot–Marie–Tooth disease. We recently identified MORC2 as an effector of epigenetic silencing by the human silencing hub (HUSH). Here we report the biochemical and cellular activities of MORC2 variants, alongside crystal structures of wild-type and neuropathic forms of a human MORC2 fragment comprising the GHKL-type ATPase module and CW-type zinc finger. This fragment dimerizes upon binding ATP and contains a hinged, functionally critical coiled-coil insertion absent in other GHKL ATPases. We find that dimerization and DNA binding of the MORC2 ATPase module transduce HUSH-dependent silencing. Disease mutations change the dynamics of dimerization by distinct structural mechanisms: destabilizing the ATPase-CW module, trapping the ATP lid, or perturbing the dimer interface. These defects lead to the modulation of HUSH function, thus providing a molecular basis for understanding MORC2-associated neuropathies. Microrchidia CW-type zinc finger protein 2 (MORC2) is an effector of epigenetic silencing by the human silencing hub (HUSH). Here the authors present the crystal structures of MORC2 and disease-causing MORC2 mutants and give mechanistic insights into how MORC2 mediates HUSH-dependent silencing. Missense mutations in MORC2 cause neuropathies including spinal muscular atrophy and Charcot-Marie-Tooth disease. We recently identified MORC2 as an effector of epigenetic silencing by the human silencing hub (HUSH). Here we report the biochemical and cellular activities of MORC2 variants, alongside crystal structures of wild-type and neuropathic forms of a human MORC2 fragment comprising the GHKL-type ATPase module and CW-type zinc finger. This fragment dimerizes upon binding ATP and contains a hinged, functionally critical coiled-coil insertion absent in other GHKL ATPases. We find that dimerization and DNA binding of the MORC2 ATPase module transduce HUSH-dependent silencing. Disease mutations change the dynamics of dimerization by distinct structural mechanisms: destabilizing the ATPase-CW module, trapping the ATP lid, or perturbing the dimer interface. These defects lead to the modulation of HUSH function, thus providing a molecular basis for understanding MORC2-associated neuropathies. Missense mutations in MORC2 cause neuropathies including spinal muscular atrophy and Charcot-Marie-Tooth disease. We recently identified MORC2 as an effector of epigenetic silencing by the human silencing hub (HUSH). Here we report the biochemical and cellular activities of MORC2 variants, alongside crystal structures of wild-type and neuropathic forms of a human MORC2 fragment comprising the GHKL-type ATPase module and CW-type zinc finger. This fragment dimerizes upon binding ATP and contains a hinged, functionally critical coiled-coil insertion absent in other GHKL ATPases. We find that dimerization and DNA binding of the MORC2 ATPase module transduce HUSH-dependent silencing. Disease mutations change the dynamics of dimerization by distinct structural mechanisms: destabilizing the ATPase-CW module, trapping the ATP lid, or perturbing the dimer interface. These defects lead to the modulation of HUSH function, thus providing a molecular basis for understanding MORC2-associated neuropathies.Missense mutations in MORC2 cause neuropathies including spinal muscular atrophy and Charcot-Marie-Tooth disease. We recently identified MORC2 as an effector of epigenetic silencing by the human silencing hub (HUSH). Here we report the biochemical and cellular activities of MORC2 variants, alongside crystal structures of wild-type and neuropathic forms of a human MORC2 fragment comprising the GHKL-type ATPase module and CW-type zinc finger. This fragment dimerizes upon binding ATP and contains a hinged, functionally critical coiled-coil insertion absent in other GHKL ATPases. We find that dimerization and DNA binding of the MORC2 ATPase module transduce HUSH-dependent silencing. Disease mutations change the dynamics of dimerization by distinct structural mechanisms: destabilizing the ATPase-CW module, trapping the ATP lid, or perturbing the dimer interface. These defects lead to the modulation of HUSH function, thus providing a molecular basis for understanding MORC2-associated neuropathies. |
| ArticleNumber | 651 |
| Author | Douse, Christopher H. Bloor, Stuart Timms, Richard T. Shamin, Maria Liu, Yangci Lehner, Paul J. Modis, Yorgo Tchasovnikarova, Iva A. |
| Author_xml | – sequence: 1 givenname: Christopher H. orcidid: 0000-0002-1604-8944 surname: Douse fullname: Douse, Christopher H. email: cdouse@mrc-lmb.cam.ac.uk organization: Department of Medicine, MRC Laboratory of Molecular Biology, Cambridge Biomedical Campus, University of Cambridge – sequence: 2 givenname: Stuart surname: Bloor fullname: Bloor, Stuart organization: Department of Medicine, Cambridge Institute for Medical Research, Cambridge Biomedical Campus, University of Cambridge – sequence: 3 givenname: Yangci surname: Liu fullname: Liu, Yangci organization: Department of Medicine, MRC Laboratory of Molecular Biology, Cambridge Biomedical Campus, University of Cambridge – sequence: 4 givenname: Maria surname: Shamin fullname: Shamin, Maria organization: Department of Medicine, MRC Laboratory of Molecular Biology, Cambridge Biomedical Campus, University of Cambridge – sequence: 5 givenname: Iva A. orcidid: 0000-0002-0477-0956 surname: Tchasovnikarova fullname: Tchasovnikarova, Iva A. organization: Department of Medicine, Cambridge Institute for Medical Research, Cambridge Biomedical Campus, University of Cambridge, Department of Molecular Biology, Massachusetts General Hospital, and Department of Genetics, Harvard Medical School – sequence: 6 givenname: Richard T. surname: Timms fullname: Timms, Richard T. organization: Department of Medicine, Cambridge Institute for Medical Research, Cambridge Biomedical Campus, University of Cambridge, Department of Medicine, Brigham and Women’s Hospital – sequence: 7 givenname: Paul J. surname: Lehner fullname: Lehner, Paul J. organization: Department of Medicine, Cambridge Institute for Medical Research, Cambridge Biomedical Campus, University of Cambridge – sequence: 8 givenname: Yorgo orcidid: 0000-0002-6084-0429 surname: Modis fullname: Modis, Yorgo email: ymodis@mrc-lmb.cam.ac.uk organization: Department of Medicine, MRC Laboratory of Molecular Biology, Cambridge Biomedical Campus, University of Cambridge |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/29440755$$D View this record in MEDLINE/PubMed |
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| ContentType | Journal Article |
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| CorporateAuthor | Epigenetics and Chromatin Dynamics Department of Experimental Medical Science Faculty of Medicine Lunds universitet Institutionen för experimentell medicinsk vetenskap Medicinska fakulteten Lund University Epigenetik och kromatindynamik |
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| Snippet | Missense mutations in
MORC2
cause neuropathies including spinal muscular atrophy and Charcot–Marie–Tooth disease. We recently identified MORC2 as an effector... Missense mutations in MORC2 cause neuropathies including spinal muscular atrophy and Charcot-Marie-Tooth disease. We recently identified MORC2 as an effector... Missense mutations in MORC2 cause neuropathies including spinal muscular atrophy and Charcot–Marie–Tooth disease. We recently identified MORC2 as an effector... Microrchidia CW-type zinc finger protein 2 (MORC2) is an effector of epigenetic silencing by the human silencing hub (HUSH). Here the authors present the... |
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| Title | Neuropathic MORC2 mutations perturb GHKL ATPase dimerization dynamics and epigenetic silencing by multiple structural mechanisms |
| URI | https://link.springer.com/article/10.1038/s41467-018-03045-x https://www.ncbi.nlm.nih.gov/pubmed/29440755 https://www.proquest.com/docview/2001895819 https://www.proquest.com/docview/2002215976 https://pubmed.ncbi.nlm.nih.gov/PMC5811534 https://doaj.org/article/7fb05d6f62c94a08a8f144e58ba79a09 |
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