EXD2 Protects Stressed Replication Forks and Is Required for Cell Viability in the Absence of BRCA1/2

Jadwiga Nieminuszczy; R. Broderick; Marina A. Bellani; Elizabeth Smethurst; Rebekka A. Schwab; Veronica Cherdyntseva; Theodora Evmorfopoulou; Yea Lih Lin; Michal Minczuk; Philippe Pasero; Sarantis Gagos; Michael M. Seidman; Wojciech Niedzwiedz

doi:10.1016/j.molcel.2019.05.026

EXD2 Protects Stressed Replication Forks and Is Required for Cell Viability in the Absence of BRCA1/2

Jadwiga Nieminuszczy, R. Broderick, Marina A. Bellani, Elizabeth Smethurst, Rebekka A. Schwab, Veronica Cherdyntseva, Theodora Evmorfopoulou, Yea Lih Lin, Michal Minczuk, Philippe Pasero, Sarantis Gagos, Michael M. Seidman, Wojciech Niedzwiedz^*

^*Corresponding author for this work

Cancer and Genomic Sciences

Research output: Contribution to journal › Article › peer-review

Abstract

Accurate DNA replication is essential to preserve genomic integrity and prevent chromosomal instability-associated diseases including cancer. Key to this process is the cells’ ability to stabilize and restart stalled replication forks. Here, we show that the EXD2 nuclease is essential to this process. EXD2 recruitment to stressed forks suppresses their degradation by restraining excessive fork regression. Accordingly, EXD2 deficiency leads to fork collapse, hypersensitivity to replication inhibitors, and genomic instability. Impeding fork regression by inactivation of SMARCAL1 or removal of RECQ1’s inhibition in EXD2^−/− cells restores efficient fork restart and genome stability. Moreover, purified EXD2 efficiently processes substrates mimicking regressed forks. Thus, this work identifies a mechanism underpinned by EXD2’s nuclease activity, by which cells balance fork regression with fork restoration to maintain genome stability. Interestingly, from a clinical perspective, we discover that EXD2’s depletion is synthetic lethal with mutations in BRCA1/2, implying a non-redundant role in replication fork protection. Nieminuszczy et al. identify a key function of the EXD2 nuclease in DNA replication and alternative end-joining. EXD2 localizes to replication forks and promotes their stabilization by counteracting fork regression. Loss of EXD2 results in sensitivity to replicative inhibitors, degradation of regressed forks, and compromises survival of BRCA1/2-deficient tumors.

Original language	English
Pages (from-to)	605-619.e6
Journal	Molecular Cell
Volume	75
Issue number	3
DOIs	https://doi.org/10.1016/j.molcel.2019.05.026
Publication status	Published - 8 Aug 2019

Bibliographical note

Publisher Copyright:
© 2019 The Authors

Keywords

BRCA1
BRCA2
DNA replication
EXD2
EXDL2
fork regression

ASJC Scopus subject areas

Molecular Biology
Cell Biology

UN SDGs

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

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10.1016/j.molcel.2019.05.026

Cite this

Nieminuszczy, J., Broderick, R., Bellani, M. A., Smethurst, E., Schwab, R. A., Cherdyntseva, V., Evmorfopoulou, T., Lin, Y. L., Minczuk, M., Pasero, P., Gagos, S., Seidman, M. M., & Niedzwiedz, W. (2019). EXD2 Protects Stressed Replication Forks and Is Required for Cell Viability in the Absence of BRCA1/2. Molecular Cell, 75(3), 605-619.e6. https://doi.org/10.1016/j.molcel.2019.05.026

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title = "EXD2 Protects Stressed Replication Forks and Is Required for Cell Viability in the Absence of BRCA1/2",

abstract = "Accurate DNA replication is essential to preserve genomic integrity and prevent chromosomal instability-associated diseases including cancer. Key to this process is the cells{\textquoteright} ability to stabilize and restart stalled replication forks. Here, we show that the EXD2 nuclease is essential to this process. EXD2 recruitment to stressed forks suppresses their degradation by restraining excessive fork regression. Accordingly, EXD2 deficiency leads to fork collapse, hypersensitivity to replication inhibitors, and genomic instability. Impeding fork regression by inactivation of SMARCAL1 or removal of RECQ1{\textquoteright}s inhibition in EXD2−/− cells restores efficient fork restart and genome stability. Moreover, purified EXD2 efficiently processes substrates mimicking regressed forks. Thus, this work identifies a mechanism underpinned by EXD2{\textquoteright}s nuclease activity, by which cells balance fork regression with fork restoration to maintain genome stability. Interestingly, from a clinical perspective, we discover that EXD2{\textquoteright}s depletion is synthetic lethal with mutations in BRCA1/2, implying a non-redundant role in replication fork protection. Nieminuszczy et al. identify a key function of the EXD2 nuclease in DNA replication and alternative end-joining. EXD2 localizes to replication forks and promotes their stabilization by counteracting fork regression. Loss of EXD2 results in sensitivity to replicative inhibitors, degradation of regressed forks, and compromises survival of BRCA1/2-deficient tumors.",

keywords = "BRCA1, BRCA2, DNA replication, EXD2, EXDL2, fork regression",

author = "Jadwiga Nieminuszczy and R. Broderick and Bellani, \{Marina A.\} and Elizabeth Smethurst and Schwab, \{Rebekka A.\} and Veronica Cherdyntseva and Theodora Evmorfopoulou and Lin, \{Yea Lih\} and Michal Minczuk and Philippe Pasero and Sarantis Gagos and Seidman, \{Michael M.\} and Wojciech Niedzwiedz",

note = "Publisher Copyright: {\textcopyright} 2019 The Authors",

year = "2019",

month = aug,

day = "8",

doi = "10.1016/j.molcel.2019.05.026",

language = "English",

volume = "75",

pages = "605--619.e6",

journal = "Molecular Cell",

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Nieminuszczy, J, Broderick, R, Bellani, MA, Smethurst, E, Schwab, RA, Cherdyntseva, V, Evmorfopoulou, T, Lin, YL, Minczuk, M, Pasero, P, Gagos, S, Seidman, MM & Niedzwiedz, W 2019, 'EXD2 Protects Stressed Replication Forks and Is Required for Cell Viability in the Absence of BRCA1/2', Molecular Cell, vol. 75, no. 3, pp. 605-619.e6. https://doi.org/10.1016/j.molcel.2019.05.026

TY - JOUR

T1 - EXD2 Protects Stressed Replication Forks and Is Required for Cell Viability in the Absence of BRCA1/2

AU - Nieminuszczy, Jadwiga

AU - Broderick, R.

AU - Bellani, Marina A.

AU - Smethurst, Elizabeth

AU - Schwab, Rebekka A.

AU - Cherdyntseva, Veronica

AU - Evmorfopoulou, Theodora

AU - Lin, Yea Lih

AU - Minczuk, Michal

AU - Pasero, Philippe

AU - Gagos, Sarantis

AU - Seidman, Michael M.

AU - Niedzwiedz, Wojciech

PY - 2019/8/8

Y1 - 2019/8/8

N2 - Accurate DNA replication is essential to preserve genomic integrity and prevent chromosomal instability-associated diseases including cancer. Key to this process is the cells’ ability to stabilize and restart stalled replication forks. Here, we show that the EXD2 nuclease is essential to this process. EXD2 recruitment to stressed forks suppresses their degradation by restraining excessive fork regression. Accordingly, EXD2 deficiency leads to fork collapse, hypersensitivity to replication inhibitors, and genomic instability. Impeding fork regression by inactivation of SMARCAL1 or removal of RECQ1’s inhibition in EXD2−/− cells restores efficient fork restart and genome stability. Moreover, purified EXD2 efficiently processes substrates mimicking regressed forks. Thus, this work identifies a mechanism underpinned by EXD2’s nuclease activity, by which cells balance fork regression with fork restoration to maintain genome stability. Interestingly, from a clinical perspective, we discover that EXD2’s depletion is synthetic lethal with mutations in BRCA1/2, implying a non-redundant role in replication fork protection. Nieminuszczy et al. identify a key function of the EXD2 nuclease in DNA replication and alternative end-joining. EXD2 localizes to replication forks and promotes their stabilization by counteracting fork regression. Loss of EXD2 results in sensitivity to replicative inhibitors, degradation of regressed forks, and compromises survival of BRCA1/2-deficient tumors.

AB - Accurate DNA replication is essential to preserve genomic integrity and prevent chromosomal instability-associated diseases including cancer. Key to this process is the cells’ ability to stabilize and restart stalled replication forks. Here, we show that the EXD2 nuclease is essential to this process. EXD2 recruitment to stressed forks suppresses their degradation by restraining excessive fork regression. Accordingly, EXD2 deficiency leads to fork collapse, hypersensitivity to replication inhibitors, and genomic instability. Impeding fork regression by inactivation of SMARCAL1 or removal of RECQ1’s inhibition in EXD2−/− cells restores efficient fork restart and genome stability. Moreover, purified EXD2 efficiently processes substrates mimicking regressed forks. Thus, this work identifies a mechanism underpinned by EXD2’s nuclease activity, by which cells balance fork regression with fork restoration to maintain genome stability. Interestingly, from a clinical perspective, we discover that EXD2’s depletion is synthetic lethal with mutations in BRCA1/2, implying a non-redundant role in replication fork protection. Nieminuszczy et al. identify a key function of the EXD2 nuclease in DNA replication and alternative end-joining. EXD2 localizes to replication forks and promotes their stabilization by counteracting fork regression. Loss of EXD2 results in sensitivity to replicative inhibitors, degradation of regressed forks, and compromises survival of BRCA1/2-deficient tumors.

KW - BRCA1

KW - BRCA2

KW - DNA replication

KW - EXD2

KW - EXDL2

KW - fork regression

UR - https://www.scopus.com/pages/publications/85071346747

U2 - 10.1016/j.molcel.2019.05.026

DO - 10.1016/j.molcel.2019.05.026

M3 - Article

C2 - 31255466

AN - SCOPUS:85071346747

SN - 1097-2765

VL - 75

SP - 605-619.e6

JO - Molecular Cell

JF - Molecular Cell

IS - 3

ER -

EXD2 Protects Stressed Replication Forks and Is Required for Cell Viability in the Absence of BRCA1/2

Abstract

Bibliographical note

Keywords

ASJC Scopus subject areas

UN SDGs

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