Three-dimensional architecture of the human BRCA1-A histone deubiquitinase core complex

Otto J P Kyrieleis; Pauline B McIntosh; Sarah R Webb; Lesley J Calder; Janette Lloyd; Nisha A Patel; Stephen R Martin; Carol V Robinson; Peter B Rosenthal; Stephen J Smerdon

doi:10.1016/j.celrep.2016.11.063

Three-dimensional architecture of the human BRCA1-A histone deubiquitinase core complex

Otto J P Kyrieleis, Pauline B McIntosh, Sarah R Webb, Lesley J Calder, Janette Lloyd, Nisha A Patel, Stephen R Martin, Carol V Robinson, Peter B Rosenthal, Stephen J Smerdon

Cancer and Genomic Sciences

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Abstract

BRCA1 is a tumor suppressor found to be mutated in hereditary breast and ovarian cancer and plays key roles in the maintenance of genomic stability by homologous recombination repair. It is recruited to damaged chromatin as a component of the BRCA1-A deubiquitinase, which cleaves K63-linked ubiquitin chains attached to histone H2A and H2AX. BRCA1-A contributes to checkpoint regulation, repair pathway choice, and HR repair efficiency through molecular mechanisms that remain largely obscure. The structure of an active core complex comprising two Abraxas/BRCC36/BRCC45/MERIT40 tetramers determined by negative-stain electron microscopy (EM) reveals a distorted V-shape architecture in which a dimer of Abraxas/BRCC36 heterodimers sits at the base, with BRCC45/Merit40 pairs occupying each arm. The location and ubiquitin-binding activity of BRCC45 suggest that it may provide accessory interactions with nucleosome-linked ubiquitin chains that contribute to their efficient processing. Our data also suggest how ataxia telangiectasia mutated (ATM)-dependent BRCA1 dimerization may stabilize self-association of the entire BRCA1-A complex.

Original language	English
Pages (from-to)	3099-3106
Number of pages	8
Journal	Cell Reports
Volume	17
Issue number	12
DOIs	https://doi.org/10.1016/j.celrep.2016.11.063
Publication status	Published - 20 Dec 2016

Keywords

Ataxia Telangiectasia Mutated Proteins/chemistry
BRCA1 Protein/chemistry
Breast Neoplasms/genetics
Carrier Proteins/chemistry
Chromatin/chemistry
DNA Damage/genetics
DNA Repair/genetics
Deubiquitinating Enzymes/chemistry
Genomic Instability
Histones/chemistry
Humans
Multiprotein Complexes/chemistry
Protein Binding
Protein Conformation
Protein Multimerization
Recombinational DNA Repair/genetics
Ubiquitin/genetics

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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Kyrieleis_et_al_Three_dimensional_architecture_of_the_human_BRCA1_A_histone_deubiquitinase_core_complex_Cell_Reports_2016Final published version, 2.39 MBLicence: Creative Commons: Attribution (CC BY)

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title = "Three-dimensional architecture of the human BRCA1-A histone deubiquitinase core complex",

abstract = "BRCA1 is a tumor suppressor found to be mutated in hereditary breast and ovarian cancer and plays key roles in the maintenance of genomic stability by homologous recombination repair. It is recruited to damaged chromatin as a component of the BRCA1-A deubiquitinase, which cleaves K63-linked ubiquitin chains attached to histone H2A and H2AX. BRCA1-A contributes to checkpoint regulation, repair pathway choice, and HR repair efficiency through molecular mechanisms that remain largely obscure. The structure of an active core complex comprising two Abraxas/BRCC36/BRCC45/MERIT40 tetramers determined by negative-stain electron microscopy (EM) reveals a distorted V-shape architecture in which a dimer of Abraxas/BRCC36 heterodimers sits at the base, with BRCC45/Merit40 pairs occupying each arm. The location and ubiquitin-binding activity of BRCC45 suggest that it may provide accessory interactions with nucleosome-linked ubiquitin chains that contribute to their efficient processing. Our data also suggest how ataxia telangiectasia mutated (ATM)-dependent BRCA1 dimerization may stabilize self-association of the entire BRCA1-A complex.",

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author = "Kyrieleis, {Otto J P} and McIntosh, {Pauline B} and Webb, {Sarah R} and Calder, {Lesley J} and Janette Lloyd and Patel, {Nisha A} and Martin, {Stephen R} and Robinson, {Carol V} and Rosenthal, {Peter B} and Smerdon, {Stephen J}",

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language = "English",

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T1 - Three-dimensional architecture of the human BRCA1-A histone deubiquitinase core complex

AU - Kyrieleis, Otto J P

AU - McIntosh, Pauline B

AU - Webb, Sarah R

AU - Calder, Lesley J

AU - Lloyd, Janette

AU - Patel, Nisha A

AU - Martin, Stephen R

AU - Robinson, Carol V

AU - Rosenthal, Peter B

AU - Smerdon, Stephen J

PY - 2016/12/20

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N2 - BRCA1 is a tumor suppressor found to be mutated in hereditary breast and ovarian cancer and plays key roles in the maintenance of genomic stability by homologous recombination repair. It is recruited to damaged chromatin as a component of the BRCA1-A deubiquitinase, which cleaves K63-linked ubiquitin chains attached to histone H2A and H2AX. BRCA1-A contributes to checkpoint regulation, repair pathway choice, and HR repair efficiency through molecular mechanisms that remain largely obscure. The structure of an active core complex comprising two Abraxas/BRCC36/BRCC45/MERIT40 tetramers determined by negative-stain electron microscopy (EM) reveals a distorted V-shape architecture in which a dimer of Abraxas/BRCC36 heterodimers sits at the base, with BRCC45/Merit40 pairs occupying each arm. The location and ubiquitin-binding activity of BRCC45 suggest that it may provide accessory interactions with nucleosome-linked ubiquitin chains that contribute to their efficient processing. Our data also suggest how ataxia telangiectasia mutated (ATM)-dependent BRCA1 dimerization may stabilize self-association of the entire BRCA1-A complex.

AB - BRCA1 is a tumor suppressor found to be mutated in hereditary breast and ovarian cancer and plays key roles in the maintenance of genomic stability by homologous recombination repair. It is recruited to damaged chromatin as a component of the BRCA1-A deubiquitinase, which cleaves K63-linked ubiquitin chains attached to histone H2A and H2AX. BRCA1-A contributes to checkpoint regulation, repair pathway choice, and HR repair efficiency through molecular mechanisms that remain largely obscure. The structure of an active core complex comprising two Abraxas/BRCC36/BRCC45/MERIT40 tetramers determined by negative-stain electron microscopy (EM) reveals a distorted V-shape architecture in which a dimer of Abraxas/BRCC36 heterodimers sits at the base, with BRCC45/Merit40 pairs occupying each arm. The location and ubiquitin-binding activity of BRCC45 suggest that it may provide accessory interactions with nucleosome-linked ubiquitin chains that contribute to their efficient processing. Our data also suggest how ataxia telangiectasia mutated (ATM)-dependent BRCA1 dimerization may stabilize self-association of the entire BRCA1-A complex.

KW - Ataxia Telangiectasia Mutated Proteins/chemistry

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KW - Breast Neoplasms/genetics

KW - Carrier Proteins/chemistry

KW - Chromatin/chemistry

KW - DNA Damage/genetics

KW - DNA Repair/genetics

KW - Deubiquitinating Enzymes/chemistry

KW - Genomic Instability

KW - Histones/chemistry

KW - Humans

KW - Multiprotein Complexes/chemistry

KW - Protein Binding

KW - Protein Conformation

KW - Protein Multimerization

KW - Recombinational DNA Repair/genetics

KW - Ubiquitin/genetics

U2 - 10.1016/j.celrep.2016.11.063

DO - 10.1016/j.celrep.2016.11.063

M3 - Article

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SN - 2211-1247

VL - 17

SP - 3099

EP - 3106

JO - Cell Reports

JF - Cell Reports

IS - 12

ER -

Three-dimensional architecture of the human BRCA1-A histone deubiquitinase core complex

Abstract

Keywords

UN SDGs

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