Structure of the helicase core of Werner helicase, a key target in microsatellite instability cancers

Loss of WRN, a DNA repair helicase, was identified as a strong vulnerability of microsatellite instable (MSI) cancers, making WRN a promising drug target. We show that ATP binding and hydrolysis are required for genome integrity and viability of MSI cancer cells. We report a 2.2-Å crystal structure...

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Autores principales: Newman, Joseph A, Gavard, Angeline E, Lieb, Simone, Ravichandran, Madhwesh C, Hauer, Katja, Werni, Patrick, Geist, Leonhard, Böttcher, Jark, Engen, John R, Rumpel, Klaus, Samwer, Matthias, Petronczki, Mark, Gileadi, Opher
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Life Science Alliance LLC 2020
Materias:
Research Articles
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7671478/
https://www.ncbi.nlm.nih.gov/pubmed/33199508
http://dx.doi.org/10.26508/lsa.202000795
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author Newman, Joseph A
Gavard, Angeline E
Lieb, Simone
Ravichandran, Madhwesh C
Hauer, Katja
Werni, Patrick
Geist, Leonhard
Böttcher, Jark
Engen, John R
Rumpel, Klaus
Samwer, Matthias
Petronczki, Mark
Gileadi, Opher
author_facet Newman, Joseph A
Gavard, Angeline E
Lieb, Simone
Ravichandran, Madhwesh C
Hauer, Katja
Werni, Patrick
Geist, Leonhard
Böttcher, Jark
Engen, John R
Rumpel, Klaus
Samwer, Matthias
Petronczki, Mark
Gileadi, Opher
author_sort Newman, Joseph A
collection PubMed
description Loss of WRN, a DNA repair helicase, was identified as a strong vulnerability of microsatellite instable (MSI) cancers, making WRN a promising drug target. We show that ATP binding and hydrolysis are required for genome integrity and viability of MSI cancer cells. We report a 2.2-Å crystal structure of the WRN helicase core (517–1,093), comprising the two helicase subdomains and winged helix domain but not the HRDC domain or nuclease domains. The structure highlights unusual features. First, an atypical mode of nucleotide binding that results in unusual relative positioning of the two helicase subdomains. Second, an additional β-hairpin in the second helicase subdomain and an unusual helical hairpin in the Zn(2+) binding domain. Modelling of the WRN helicase in complex with DNA suggests roles for these features in the binding of alternative DNA structures. NMR analysis shows a weak interaction between the HRDC domain and the helicase core, indicating a possible biological role for this association. Together, this study will facilitate the structure-based development of inhibitors against WRN helicase.
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spelling pubmed-76714782020-11-27 Structure of the helicase core of Werner helicase, a key target in microsatellite instability cancers Newman, Joseph A Gavard, Angeline E Lieb, Simone Ravichandran, Madhwesh C Hauer, Katja Werni, Patrick Geist, Leonhard Böttcher, Jark Engen, John R Rumpel, Klaus Samwer, Matthias Petronczki, Mark Gileadi, Opher Life Sci Alliance Research Articles Loss of WRN, a DNA repair helicase, was identified as a strong vulnerability of microsatellite instable (MSI) cancers, making WRN a promising drug target. We show that ATP binding and hydrolysis are required for genome integrity and viability of MSI cancer cells. We report a 2.2-Å crystal structure of the WRN helicase core (517–1,093), comprising the two helicase subdomains and winged helix domain but not the HRDC domain or nuclease domains. The structure highlights unusual features. First, an atypical mode of nucleotide binding that results in unusual relative positioning of the two helicase subdomains. Second, an additional β-hairpin in the second helicase subdomain and an unusual helical hairpin in the Zn(2+) binding domain. Modelling of the WRN helicase in complex with DNA suggests roles for these features in the binding of alternative DNA structures. NMR analysis shows a weak interaction between the HRDC domain and the helicase core, indicating a possible biological role for this association. Together, this study will facilitate the structure-based development of inhibitors against WRN helicase. Life Science Alliance LLC 2020-11-16 /pmc/articles/PMC7671478/ /pubmed/33199508 http://dx.doi.org/10.26508/lsa.202000795 Text en © 2020 Newman et al. https://creativecommons.org/licenses/by/4.0/This article is available under a Creative Commons License (Attribution 4.0 International, as described at https://creativecommons.org/licenses/by/4.0/).
spellingShingle Research Articles
Newman, Joseph A
Gavard, Angeline E
Lieb, Simone
Ravichandran, Madhwesh C
Hauer, Katja
Werni, Patrick
Geist, Leonhard
Böttcher, Jark
Engen, John R
Rumpel, Klaus
Samwer, Matthias
Petronczki, Mark
Gileadi, Opher
Structure of the helicase core of Werner helicase, a key target in microsatellite instability cancers
title Structure of the helicase core of Werner helicase, a key target in microsatellite instability cancers
title_full Structure of the helicase core of Werner helicase, a key target in microsatellite instability cancers
title_fullStr Structure of the helicase core of Werner helicase, a key target in microsatellite instability cancers
title_full_unstemmed Structure of the helicase core of Werner helicase, a key target in microsatellite instability cancers
title_short Structure of the helicase core of Werner helicase, a key target in microsatellite instability cancers
title_sort structure of the helicase core of werner helicase, a key target in microsatellite instability cancers
topic Research Articles
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7671478/
https://www.ncbi.nlm.nih.gov/pubmed/33199508
http://dx.doi.org/10.26508/lsa.202000795
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