Remodeling of Interstrand Crosslink Proximal Replisomes Is Dependent on ATR, FANCM, and FANCD2

Jing Huang; Jing Zhang; Marina A. Bellani; Durga Pokharel; Julia Gichimu; Ryan C. James; Himabindu Gali; Chen Ling; Zhijiang Yan; Dongyi Xu; Junjie Chen; Amom Ruhikanta Meetei; Lei Li; Weidong Wang; Michael M. Seidman

doi:10.1016/j.celrep.2019.04.032

Remodeling of Interstrand Crosslink Proximal Replisomes Is Dependent on ATR, FANCM, and FANCD2

Jing Huang, Jing Zhang, Marina A. Bellani, Durga Pokharel, Julia Gichimu, Ryan C. James, Himabindu Gali, Chen Ling, Zhijiang Yan, Dongyi Xu, Junjie Chen, Amom Ruhikanta Meetei, Lei Li, Weidong Wang, Michael M. Seidman

Experimental Radiation Oncology

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

39 Scopus citations

Abstract

Eukaryotic replisomes are driven by the mini chromosome maintenance (MCM [M]) helicase complex, an offset ring locked around the template for leading strand synthesis by CDC45 (C) and GINS (G) proteins. Although the CDC45 MCM GINS (CMG) structure implies that interstrand crosslinks (ICLs) are absolute blocks to replisomes, recent studies indicate that cells can restart DNA synthesis on the side of the ICL distal to the initial encounter. Here, we report that restart requires ATR and is promoted by FANCD2 and phosphorylated FANCM. Following introduction of genomic ICLs and dependent on ATR and FANCD2 but not on the Fanconi anemia core proteins or FAAP24, FANCM binds the replisome complex, with concomitant release of the GINS proteins. In situ analysis of replisomes proximal to ICLs confirms the ATR-dependent release of GINS proteins while CDC45 is retained on the remodeled replisome. The results demonstrate the plasticity of CMG composition in response to replication stress. Replication of the mammalian genome is driven by the replisome complex, which unwinds DNA and must overcome many impediments. Zhang et al. find that the encounter of the CMG with a strong block triggers a change in replisome composition that is important for restart of replication past the obstruction.

Original language	English (US)
Pages (from-to)	1794-1808.e5
Journal	Cell Reports
Volume	27
Issue number	6
DOIs	https://doi.org/10.1016/j.celrep.2019.04.032
State	Published - May 7 2019

Keywords

ATR
CMG
FANCD2
FANCM
GINS
ICL
interstrand crosslink
replication traverse

ASJC Scopus subject areas

General Biochemistry, Genetics and Molecular Biology

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10.1016/j.celrep.2019.04.032

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@article{8112fdd3f0d54246bc43babf8d24706e,

title = "Remodeling of Interstrand Crosslink Proximal Replisomes Is Dependent on ATR, FANCM, and FANCD2",

abstract = "Eukaryotic replisomes are driven by the mini chromosome maintenance (MCM [M]) helicase complex, an offset ring locked around the template for leading strand synthesis by CDC45 (C) and GINS (G) proteins. Although the CDC45 MCM GINS (CMG) structure implies that interstrand crosslinks (ICLs) are absolute blocks to replisomes, recent studies indicate that cells can restart DNA synthesis on the side of the ICL distal to the initial encounter. Here, we report that restart requires ATR and is promoted by FANCD2 and phosphorylated FANCM. Following introduction of genomic ICLs and dependent on ATR and FANCD2 but not on the Fanconi anemia core proteins or FAAP24, FANCM binds the replisome complex, with concomitant release of the GINS proteins. In situ analysis of replisomes proximal to ICLs confirms the ATR-dependent release of GINS proteins while CDC45 is retained on the remodeled replisome. The results demonstrate the plasticity of CMG composition in response to replication stress. Replication of the mammalian genome is driven by the replisome complex, which unwinds DNA and must overcome many impediments. Zhang et al. find that the encounter of the CMG with a strong block triggers a change in replisome composition that is important for restart of replication past the obstruction.",

keywords = "ATR, CMG, FANCD2, FANCM, GINS, ICL, interstrand crosslink, replication traverse",

author = "Jing Huang and Jing Zhang and Bellani, {Marina A.} and Durga Pokharel and Julia Gichimu and James, {Ryan C.} and Himabindu Gali and Chen Ling and Zhijiang Yan and Dongyi Xu and Junjie Chen and Meetei, {Amom Ruhikanta} and Lei Li and Weidong Wang and Seidman, {Michael M.}",

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

year = "2019",

month = may,

day = "7",

doi = "10.1016/j.celrep.2019.04.032",

language = "English (US)",

volume = "27",

pages = "1794--1808.e5",

journal = "Cell Reports",

issn = "2211-1247",

publisher = "Cell Press",

number = "6",

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TY - JOUR

T1 - Remodeling of Interstrand Crosslink Proximal Replisomes Is Dependent on ATR, FANCM, and FANCD2

AU - Huang, Jing

AU - Zhang, Jing

AU - Bellani, Marina A.

AU - Pokharel, Durga

AU - Gichimu, Julia

AU - James, Ryan C.

AU - Gali, Himabindu

AU - Ling, Chen

AU - Yan, Zhijiang

AU - Xu, Dongyi

AU - Chen, Junjie

AU - Meetei, Amom Ruhikanta

AU - Li, Lei

AU - Wang, Weidong

AU - Seidman, Michael M.

PY - 2019/5/7

Y1 - 2019/5/7

N2 - Eukaryotic replisomes are driven by the mini chromosome maintenance (MCM [M]) helicase complex, an offset ring locked around the template for leading strand synthesis by CDC45 (C) and GINS (G) proteins. Although the CDC45 MCM GINS (CMG) structure implies that interstrand crosslinks (ICLs) are absolute blocks to replisomes, recent studies indicate that cells can restart DNA synthesis on the side of the ICL distal to the initial encounter. Here, we report that restart requires ATR and is promoted by FANCD2 and phosphorylated FANCM. Following introduction of genomic ICLs and dependent on ATR and FANCD2 but not on the Fanconi anemia core proteins or FAAP24, FANCM binds the replisome complex, with concomitant release of the GINS proteins. In situ analysis of replisomes proximal to ICLs confirms the ATR-dependent release of GINS proteins while CDC45 is retained on the remodeled replisome. The results demonstrate the plasticity of CMG composition in response to replication stress. Replication of the mammalian genome is driven by the replisome complex, which unwinds DNA and must overcome many impediments. Zhang et al. find that the encounter of the CMG with a strong block triggers a change in replisome composition that is important for restart of replication past the obstruction.

AB - Eukaryotic replisomes are driven by the mini chromosome maintenance (MCM [M]) helicase complex, an offset ring locked around the template for leading strand synthesis by CDC45 (C) and GINS (G) proteins. Although the CDC45 MCM GINS (CMG) structure implies that interstrand crosslinks (ICLs) are absolute blocks to replisomes, recent studies indicate that cells can restart DNA synthesis on the side of the ICL distal to the initial encounter. Here, we report that restart requires ATR and is promoted by FANCD2 and phosphorylated FANCM. Following introduction of genomic ICLs and dependent on ATR and FANCD2 but not on the Fanconi anemia core proteins or FAAP24, FANCM binds the replisome complex, with concomitant release of the GINS proteins. In situ analysis of replisomes proximal to ICLs confirms the ATR-dependent release of GINS proteins while CDC45 is retained on the remodeled replisome. The results demonstrate the plasticity of CMG composition in response to replication stress. Replication of the mammalian genome is driven by the replisome complex, which unwinds DNA and must overcome many impediments. Zhang et al. find that the encounter of the CMG with a strong block triggers a change in replisome composition that is important for restart of replication past the obstruction.

KW - ATR

KW - CMG

KW - FANCD2

KW - FANCM

KW - GINS

KW - ICL

KW - interstrand crosslink

KW - replication traverse

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UR - http://www.scopus.com/inward/citedby.url?scp=85064558403&partnerID=8YFLogxK

U2 - 10.1016/j.celrep.2019.04.032

DO - 10.1016/j.celrep.2019.04.032

M3 - Article

C2 - 31067464

AN - SCOPUS:85064558403

SN - 2211-1247

VL - 27

SP - 1794-1808.e5

JO - Cell Reports

JF - Cell Reports

IS - 6

ER -

Remodeling of Interstrand Crosslink Proximal Replisomes Is Dependent on ATR, FANCM, and FANCD2

Abstract

Keywords

ASJC Scopus subject areas

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