Claspin recruits Cdc7 kinase for initiation of DNA replication in human cells

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Abstract

Claspin transmits replication stress signal from ATR to Chk1 effector kinase as a mediator. It also plays a role in efficient replication fork progression during normal growth. Here we have generated conditional knockout of Claspin and show that Claspin knockout mice are dead by E12.5 and Claspin knockout mouse embryonic fibroblast (MEF) cells show defect in S phase. Using the mutant cell lines, we report the crucial roles of the acidic patch (AP) near the C terminus of Claspin in initiation of DNA replication. Cdc7 kinase binds to AP and this binding is required for phosphorylation of Mcm. AP is involved also in intramolecular interaction with a N-terminal segment, masking the DNA-binding domain and a newly identified PIP motif, and Cdc7-mediated phosphorylation reduces the intramolecular interaction. Our results suggest a new role of Claspin in initiation of DNA replication during normal S phase through the recruitment of Cdc7 that facilitates phosphorylation of Mcm proteins.

Abstract

Claspin mediates the transmission of a replication-stress signal from ATR to Chk1 and is necessary for efficient fork progression. Here the authors demonstrate that the C-terminal acidic patch is important for this role due to its interaction with Cdc7.

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GINS maintains association of Cdc45 with MCM in replisome progression complexes at eukaryotic DNA replication forks.

Agnieszka Gambus, Richard Jones, Alberto Sanchez-Diaz … (2006)

The components of the replisome that preserve genomic stability by controlling the progression of eukaryotic DNA replication forks are poorly understood. Here, we show that the GINS (go ichi ni san) complex allows the MCM (minichromosome maintenance) helicase to interact with key regulatory proteins in large replisome progression complexes (RPCs) that are assembled during initiation and disassembled at the end of S phase. RPC components include the essential initiation and elongation factor, Cdc45, the checkpoint mediator Mrc1, the Tof1-Csm3 complex that allows replication forks to pause at protein-DNA barriers, the histone chaperone FACT (facilitates chromatin transcription) and Ctf4, which helps to establish sister chromatid cohesion. RPCs also interact with Mcm10 and topoisomerase I. During initiation, GINS is essential for a specific subset of RPC proteins to interact with MCM. GINS is also important for the normal progression of DNA replication forks, and we show that it is required after initiation to maintain the association between MCM and Cdc45 within RPCs.

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S-phase checkpoint proteins Tof1 and Mrc1 form a stable replication-pausing complex.

Yuki Katou, Yutaka Kanoh, Masashige Bando … (2003)

The checkpoint regulatory mechanism has an important role in maintaining the integrity of the genome. This is particularly important in S phase of the cell cycle, when genomic DNA is most susceptible to various environmental hazards. When chemical agents damage DNA, activation of checkpoint signalling pathways results in a temporary cessation of DNA replication. A replication-pausing complex is believed to be created at the arrested forks to activate further checkpoint cascades, leading to repair of the damaged DNA. Thus, checkpoint factors are thought to act not only to arrest replication but also to maintain a stable replication complex at replication forks. However, the molecular mechanism coupling checkpoint regulation and replication arrest is unknown. Here we demonstrate that the checkpoint regulatory proteins Tof1 and Mrc1 interact directly with the DNA replication machinery in Saccharomyces cerevisiae. When hydroxyurea blocks chromosomal replication, this assembly forms a stable pausing structure that serves to anchor subsequent DNA repair events.

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How do Cdc7 and cyclin-dependent kinases trigger the initiation of chromosome replication in eukaryotic cells?

Karim Labib (2010)

Chromosome replication occurs precisely once during the cell cycle of almost all eukaryotic cells, and is a highly complex process that is still understood relatively poorly. Two conserved kinases called Cdc7 (cell division cycle 7) and cyclin-dependent kinase (CDK) are required to establish replication forks during the initiation of chromosome replication, and a key feature of this process is the activation of the replicative DNA helicase in situ at each origin of DNA replication. A series of recent studies has shed new light on the targets of Cdc7 and CDK, indicating that chromosome replication probably initiates by a fundamentally similar mechanism in all eukaryotes.

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Author and article information

Journal

Journal ID (nlm-ta): Nat Commun

Journal ID (iso-abbrev): Nat Commun

Title: Nature Communications

Publisher: Nature Publishing Group

ISSN (Electronic): 2041-1723

Publication date (Electronic): 12 July 2016

Publication date Collection: 2016

Volume: 7

Electronic Location Identifier: 12135

Affiliations

[1 ]Department of Genome Medicine, Tokyo Metropolitan Institute of Medical Science , 4-6-1 Kamikitazawa, Setagaya-ku, Tokyo 156-8506, Japan

[2 ]Department of Biology, Faculty of Science, Kyushu University 744 Motooka, Nishi-ku , Fukuoka 819-0395, Japan

[3 ]Department of Cellular Neurobiology, Brain Research Institute, Niigata University , Niigata 951-8585, Japan

Author notes

[a ] masai-hs@ 123456igakuken.or.jp

Article

Publisher Item ID: ncomms12135

DOI: 10.1038/ncomms12135

PMC ID: 4945878

PubMed ID: 27401717

SO-VID: 2b48ab68-28a7-42d7-9f7c-2588579420db

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Claspin recruits Cdc7 kinase for initiation of DNA replication in human cells

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Most cited references 47

GINS maintains association of Cdc45 with MCM in replisome progression complexes at eukaryotic DNA replication forks.

S-phase checkpoint proteins Tof1 and Mrc1 form a stable replication-pausing complex.

How do Cdc7 and cyclin-dependent kinases trigger the initiation of chromosome replication in eukaryotic cells?

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