MRNIP/C5orf45 Interacts with the MRN Complex and Contributes to the DNA Damage Response

Christopher J Staples; Giancarlo Barone; Katie N Myers; Anil Ganesh; Ian Gibbs-Seymour; Abhijit A Patil; Ryan D Beveridge; Caroline Daye; Richard Beniston; Sarah Maslen; Ivan Ahel; J Mark Skehel; Spencer J Collis

doi:10.1016/j.celrep.2016.07.087

MRNIP/C5orf45 Interacts with the MRN Complex and Contributes to the DNA Damage Response

Christopher J Staples, Giancarlo Barone, Katie N Myers, Anil Ganesh, Ian Gibbs-Seymour, Abhijit A Patil, Ryan D Beveridge, Caroline Daye, Richard Beniston, Sarah Maslen, Ivan Ahel, J Mark Skehel, Spencer J Collis

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Abstract

Through an RNAi-based screen for previously uncharacterized regulators of genome stability, we have identified the human protein C5orf45 as an important factor in preventing the accumulation of DNA damage in human cells. Here, we functionally characterize C5orf45 as a binding partner of the MRE11-RAD50-NBS1 (MRN) damage-sensing complex. Hence, we rename C5orf45 as MRNIP for MRN-interacting protein (MRNIP). We find that MRNIP is rapidly recruited to sites of DNA damage. Cells depleted of MRNIP display impaired chromatin loading of the MRN complex, resulting in reduced DNA end resection and defective ATM-mediated DNA damage signaling, a reduced ability to repair DNA breaks, and radiation sensitivity. Finally, we show that MRNIP phosphorylation on serine 115 leads to its nuclear localization, and this modification is required for MRNIP's role in promoting genome stability. Collectively, these data reveal that MRNIP is an important component of the human DNA damage response.

Original language	English
Pages (from-to)	2565-75
Number of pages	11
Journal	Cell
Volume	16
Issue number	10
Early online date	25 Aug 2016
DOIs	https://doi.org/10.1016/j.celrep.2016.07.087
Publication status	Published - 6 Sept 2016

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Journal Article

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10.1016/j.celrep.2016.07.087

2016 MRNIPFinal published version, 2.02 MBLicence: CC BY

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title = "MRNIP/C5orf45 Interacts with the MRN Complex and Contributes to the DNA Damage Response",

abstract = "Through an RNAi-based screen for previously uncharacterized regulators of genome stability, we have identified the human protein C5orf45 as an important factor in preventing the accumulation of DNA damage in human cells. Here, we functionally characterize C5orf45 as a binding partner of the MRE11-RAD50-NBS1 (MRN) damage-sensing complex. Hence, we rename C5orf45 as MRNIP for MRN-interacting protein (MRNIP). We find that MRNIP is rapidly recruited to sites of DNA damage. Cells depleted of MRNIP display impaired chromatin loading of the MRN complex, resulting in reduced DNA end resection and defective ATM-mediated DNA damage signaling, a reduced ability to repair DNA breaks, and radiation sensitivity. Finally, we show that MRNIP phosphorylation on serine 115 leads to its nuclear localization, and this modification is required for MRNIP's role in promoting genome stability. Collectively, these data reveal that MRNIP is an important component of the human DNA damage response.",

keywords = "Journal Article",

author = "Staples, \{Christopher J\} and Giancarlo Barone and Myers, \{Katie N\} and Anil Ganesh and Ian Gibbs-Seymour and Patil, \{Abhijit A\} and Beveridge, \{Ryan D\} and Caroline Daye and Richard Beniston and Sarah Maslen and Ivan Ahel and Skehel, \{J Mark\} and Collis, \{Spencer J\}",

year = "2016",

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doi = "10.1016/j.celrep.2016.07.087",

language = "English",

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T1 - MRNIP/C5orf45 Interacts with the MRN Complex and Contributes to the DNA Damage Response

AU - Staples, Christopher J

AU - Barone, Giancarlo

AU - Myers, Katie N

AU - Ganesh, Anil

AU - Gibbs-Seymour, Ian

AU - Patil, Abhijit A

AU - Beveridge, Ryan D

AU - Daye, Caroline

AU - Beniston, Richard

AU - Maslen, Sarah

AU - Ahel, Ivan

AU - Skehel, J Mark

AU - Collis, Spencer J

PY - 2016/9/6

Y1 - 2016/9/6

N2 - Through an RNAi-based screen for previously uncharacterized regulators of genome stability, we have identified the human protein C5orf45 as an important factor in preventing the accumulation of DNA damage in human cells. Here, we functionally characterize C5orf45 as a binding partner of the MRE11-RAD50-NBS1 (MRN) damage-sensing complex. Hence, we rename C5orf45 as MRNIP for MRN-interacting protein (MRNIP). We find that MRNIP is rapidly recruited to sites of DNA damage. Cells depleted of MRNIP display impaired chromatin loading of the MRN complex, resulting in reduced DNA end resection and defective ATM-mediated DNA damage signaling, a reduced ability to repair DNA breaks, and radiation sensitivity. Finally, we show that MRNIP phosphorylation on serine 115 leads to its nuclear localization, and this modification is required for MRNIP's role in promoting genome stability. Collectively, these data reveal that MRNIP is an important component of the human DNA damage response.

AB - Through an RNAi-based screen for previously uncharacterized regulators of genome stability, we have identified the human protein C5orf45 as an important factor in preventing the accumulation of DNA damage in human cells. Here, we functionally characterize C5orf45 as a binding partner of the MRE11-RAD50-NBS1 (MRN) damage-sensing complex. Hence, we rename C5orf45 as MRNIP for MRN-interacting protein (MRNIP). We find that MRNIP is rapidly recruited to sites of DNA damage. Cells depleted of MRNIP display impaired chromatin loading of the MRN complex, resulting in reduced DNA end resection and defective ATM-mediated DNA damage signaling, a reduced ability to repair DNA breaks, and radiation sensitivity. Finally, we show that MRNIP phosphorylation on serine 115 leads to its nuclear localization, and this modification is required for MRNIP's role in promoting genome stability. Collectively, these data reveal that MRNIP is an important component of the human DNA damage response.

KW - Journal Article

U2 - 10.1016/j.celrep.2016.07.087

DO - 10.1016/j.celrep.2016.07.087

M3 - Article

C2 - 27568553

SN - 0092-8674

VL - 16

SP - 2565

EP - 2575

JO - Cell

JF - Cell

IS - 10

ER -

MRNIP/C5orf45 Interacts with the MRN Complex and Contributes to the DNA Damage Response

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