Literature DB >> 29298824

MOF Suppresses Replication Stress and Contributes to Resolution of Stalled Replication Forks.

Dharmendra Kumar Singh1, Raj K Pandita2, Mayank Singh3, Sharmistha Chakraborty2, Shashank Hambarde2, Deepti Ramnarain3, Vijaya Charaka2, Kazi Mokim Ahmed2, Clayton R Hunt2, Tej K Pandita1.   

Abstract

The human MOF (hMOF) protein belongs to the MYST family of histone acetyltransferases and plays a critical role in transcription and the DNA damage response. MOF is essential for cell proliferation; however, its role during replication and replicative stress is unknown. Here we demonstrate that cells depleted of MOF and under replicative stress induced by cisplatin, hydroxyurea, or camptothecin have reduced survival, a higher frequency of S-phase-specific chromosome damage, and increased R-loop formation. MOF depletion decreased replication fork speed and, when combined with replicative stress, also increased stalled replication forks as well as new origin firing. MOF interacted with PCNA, a key coordinator of replication and repair machinery at replication forks, and affected its ubiquitination and recruitment to the DNA damage site. Depletion of MOF, therefore, compromised the DNA damage repair response as evidenced by decreased Mre11, RPA70, Rad51, and PCNA focus formation, reduced DNA end resection, and decreased CHK1 phosphorylation in cells after exposure to hydroxyurea or cisplatin. These results support the argument that MOF plays an important role in suppressing replication stress induced by genotoxic agents at several stages during the DNA damage response.
Copyright © 2018 American Society for Microbiology.

Entities:  

Keywords:  MOF; PCNA; R loop; homologous recombination; replication stress

Mesh:

Substances:

Year:  2018        PMID: 29298824      PMCID: PMC5829482          DOI: 10.1128/MCB.00484-17

Source DB:  PubMed          Journal:  Mol Cell Biol        ISSN: 0270-7306            Impact factor:   4.272


  62 in total

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Journal:  Mol Biol Cell       Date:  2013-03-06       Impact factor: 4.138
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Review 4.  The function of histone acetylation in cervical cancer development.

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5.  Caspase-2 regulates S-phase cell cycle events to protect from DNA damage accumulation independent of apoptosis.

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6.  Heat-induced SIRT1-mediated H4K16ac deacetylation impairs resection and SMARCAD1 recruitment to double strand breaks.

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7.  EXO5-DNA structure and BLM interactions direct DNA resection critical for ATR-dependent replication restart.

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