Mechanism of Bloom syndrome complex assembly required for double Holliday junction dissolution and genome stability

The RecQ-like helicase BLM cooperates with topoisomerase IIIα, RMI1, and RMI2 in a heterotetrameric complex (the “Bloom syndrome complex”) for dissolution of double Holliday junctions, key intermediates in homologous recombination. Mutations in any component of the Bloom syndrome complex can cause g...

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Autores principales: Hodson, Charlotte, Low, Jason K. K., van Twest, Sylvie, Jones, Samuel E., Swuec, Paolo, Murphy, Vincent, Tsukada, Kaima, Fawkes, Matthew, Bythell-Douglas, Rohan, Davies, Adelina, Holien, Jessica K., O’Rourke, Julienne J., Parker, Benjamin L., Glaser, Astrid, Parker, Michael W., Mackay, Joel P., Blackford, Andrew N., Costa, Alessandro, Deans, Andrew J.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: National Academy of Sciences 2022
Materias:
Biological Sciences
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8832983/
https://www.ncbi.nlm.nih.gov/pubmed/35115399
http://dx.doi.org/10.1073/pnas.2109093119
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author Hodson, Charlotte
Low, Jason K. K.
van Twest, Sylvie
Jones, Samuel E.
Swuec, Paolo
Murphy, Vincent
Tsukada, Kaima
Fawkes, Matthew
Bythell-Douglas, Rohan
Davies, Adelina
Holien, Jessica K.
O’Rourke, Julienne J.
Parker, Benjamin L.
Glaser, Astrid
Parker, Michael W.
Mackay, Joel P.
Blackford, Andrew N.
Costa, Alessandro
Deans, Andrew J.
author_facet Hodson, Charlotte
Low, Jason K. K.
van Twest, Sylvie
Jones, Samuel E.
Swuec, Paolo
Murphy, Vincent
Tsukada, Kaima
Fawkes, Matthew
Bythell-Douglas, Rohan
Davies, Adelina
Holien, Jessica K.
O’Rourke, Julienne J.
Parker, Benjamin L.
Glaser, Astrid
Parker, Michael W.
Mackay, Joel P.
Blackford, Andrew N.
Costa, Alessandro
Deans, Andrew J.
author_sort Hodson, Charlotte
collection PubMed
description The RecQ-like helicase BLM cooperates with topoisomerase IIIα, RMI1, and RMI2 in a heterotetrameric complex (the “Bloom syndrome complex”) for dissolution of double Holliday junctions, key intermediates in homologous recombination. Mutations in any component of the Bloom syndrome complex can cause genome instability and a highly cancer-prone disorder called Bloom syndrome. Some heterozygous carriers are also predisposed to breast cancer. To understand how the activities of BLM helicase and topoisomerase IIIα are coupled, we purified the active four-subunit complex. Chemical cross-linking and mass spectrometry revealed a unique architecture that links the helicase and topoisomerase domains. Using biochemical experiments, we demonstrated dimerization mediated by the N terminus of BLM with a 2:2:2:2 stoichiometry within the Bloom syndrome complex. We identified mutations that independently abrogate dimerization or association of BLM with RMI1, and we show that both are dysfunctional for dissolution using in vitro assays and cause genome instability and synthetic lethal interactions with GEN1/MUS81 in cells. Truncated BLM can also inhibit the activity of full-length BLM in mixed dimers, suggesting a putative mechanism of dominant-negative action in carriers of BLM truncation alleles. Our results identify critical molecular determinants of Bloom syndrome complex assembly required for double Holliday junction dissolution and maintenance of genome stability.
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spelling pubmed-88329832022-08-03 Mechanism of Bloom syndrome complex assembly required for double Holliday junction dissolution and genome stability Hodson, Charlotte Low, Jason K. K. van Twest, Sylvie Jones, Samuel E. Swuec, Paolo Murphy, Vincent Tsukada, Kaima Fawkes, Matthew Bythell-Douglas, Rohan Davies, Adelina Holien, Jessica K. O’Rourke, Julienne J. Parker, Benjamin L. Glaser, Astrid Parker, Michael W. Mackay, Joel P. Blackford, Andrew N. Costa, Alessandro Deans, Andrew J. Proc Natl Acad Sci U S A Biological Sciences The RecQ-like helicase BLM cooperates with topoisomerase IIIα, RMI1, and RMI2 in a heterotetrameric complex (the “Bloom syndrome complex”) for dissolution of double Holliday junctions, key intermediates in homologous recombination. Mutations in any component of the Bloom syndrome complex can cause genome instability and a highly cancer-prone disorder called Bloom syndrome. Some heterozygous carriers are also predisposed to breast cancer. To understand how the activities of BLM helicase and topoisomerase IIIα are coupled, we purified the active four-subunit complex. Chemical cross-linking and mass spectrometry revealed a unique architecture that links the helicase and topoisomerase domains. Using biochemical experiments, we demonstrated dimerization mediated by the N terminus of BLM with a 2:2:2:2 stoichiometry within the Bloom syndrome complex. We identified mutations that independently abrogate dimerization or association of BLM with RMI1, and we show that both are dysfunctional for dissolution using in vitro assays and cause genome instability and synthetic lethal interactions with GEN1/MUS81 in cells. Truncated BLM can also inhibit the activity of full-length BLM in mixed dimers, suggesting a putative mechanism of dominant-negative action in carriers of BLM truncation alleles. Our results identify critical molecular determinants of Bloom syndrome complex assembly required for double Holliday junction dissolution and maintenance of genome stability. National Academy of Sciences 2022-02-03 2022-02-08 /pmc/articles/PMC8832983/ /pubmed/35115399 http://dx.doi.org/10.1073/pnas.2109093119 Text en Copyright © 2022 the Author(s). Published by PNAS. https://creativecommons.org/licenses/by-nc-nd/4.0/This article is distributed under Creative Commons Attribution-NonCommercial-NoDerivatives License 4.0 (CC BY-NC-ND) (https://creativecommons.org/licenses/by-nc-nd/4.0/) .
spellingShingle Biological Sciences
Hodson, Charlotte
Low, Jason K. K.
van Twest, Sylvie
Jones, Samuel E.
Swuec, Paolo
Murphy, Vincent
Tsukada, Kaima
Fawkes, Matthew
Bythell-Douglas, Rohan
Davies, Adelina
Holien, Jessica K.
O’Rourke, Julienne J.
Parker, Benjamin L.
Glaser, Astrid
Parker, Michael W.
Mackay, Joel P.
Blackford, Andrew N.
Costa, Alessandro
Deans, Andrew J.
Mechanism of Bloom syndrome complex assembly required for double Holliday junction dissolution and genome stability
title Mechanism of Bloom syndrome complex assembly required for double Holliday junction dissolution and genome stability
title_full Mechanism of Bloom syndrome complex assembly required for double Holliday junction dissolution and genome stability
title_fullStr Mechanism of Bloom syndrome complex assembly required for double Holliday junction dissolution and genome stability
title_full_unstemmed Mechanism of Bloom syndrome complex assembly required for double Holliday junction dissolution and genome stability
title_short Mechanism of Bloom syndrome complex assembly required for double Holliday junction dissolution and genome stability
title_sort mechanism of bloom syndrome complex assembly required for double holliday junction dissolution and genome stability
topic Biological Sciences
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8832983/
https://www.ncbi.nlm.nih.gov/pubmed/35115399
http://dx.doi.org/10.1073/pnas.2109093119
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