NEAT1 modulates the TIRR/53BP1 complex to maintain genome integrity

Susan Kilgas; Aleem Syed; Patrick Toolan-Kerr; Michelle L. Swift; Shrabasti Roychoudhury; Aniruddha Sarkar; Sarah Wilkins; Mikayla Quigley; Anna R. Poetsch; Maria Victoria Botuyan; Gaofeng Cui; Georges Mer; Jernej Ule; Pascal Drané; Dipanjan Chowdhury

doi:10.1038/s41467-024-52862-w

NEAT1 modulates the TIRR/53BP1 complex to maintain genome integrity

Susan Kilgas, Aleem Syed, Patrick Toolan-Kerr, Michelle L. Swift, Shrabasti Roychoudhury, Aniruddha Sarkar, Sarah Wilkins, Mikayla Quigley, Anna R. Poetsch, Maria Victoria Botuyan, Gaofeng Cui, Georges Mer, Jernej Ule, Pascal Drané, Dipanjan Chowdhury

Biochemistry and Molecular Biology

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

Abstract

Tudor Interacting Repair Regulator (TIRR) is an RNA-binding protein (RBP) that interacts directly with 53BP1, restricting its access to DNA double-strand breaks (DSBs) and its association with p53. We utilized iCLIP to identify RNAs that directly bind to TIRR within cells, identifying the long non-coding RNA NEAT1 as the primary RNA partner. The high affinity of TIRR for NEAT1 is due to prevalent G-rich motifs in the short isoform (NEAT1_1) region of NEAT1. This interaction destabilizes the TIRR/53BP1 complex, promoting 53BP1’s function. NEAT1_1 is enriched during the G1 phase of the cell cycle, thereby ensuring that TIRR-dependent inhibition of 53BP1’s function is cell cycle-dependent. TDP-43, an RBP that is implicated in neurodegenerative diseases, modulates the TIRR/53BP1 complex by promoting the production of the NEAT1 short isoform, NEAT1_1. Together, we infer that NEAT1_1, and factors regulating NEAT1_1, may impact 53BP1-dependent DNA repair processes, with implications for a spectrum of diseases.

Original language	English (US)
Article number	8438
Journal	Nature communications
Volume	15
Issue number	1
DOIs	https://doi.org/10.1038/s41467-024-52862-w
State	Published - Dec 2024

ASJC Scopus subject areas

General Chemistry
General Biochemistry, Genetics and Molecular Biology
General Physics and Astronomy

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10.1038/s41467-024-52862-w

Cite this

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title = "NEAT1 modulates the TIRR/53BP1 complex to maintain genome integrity",

abstract = "Tudor Interacting Repair Regulator (TIRR) is an RNA-binding protein (RBP) that interacts directly with 53BP1, restricting its access to DNA double-strand breaks (DSBs) and its association with p53. We utilized iCLIP to identify RNAs that directly bind to TIRR within cells, identifying the long non-coding RNA NEAT1 as the primary RNA partner. The high affinity of TIRR for NEAT1 is due to prevalent G-rich motifs in the short isoform (NEAT1_1) region of NEAT1. This interaction destabilizes the TIRR/53BP1 complex, promoting 53BP1{\textquoteright}s function. NEAT1_1 is enriched during the G1 phase of the cell cycle, thereby ensuring that TIRR-dependent inhibition of 53BP1{\textquoteright}s function is cell cycle-dependent. TDP-43, an RBP that is implicated in neurodegenerative diseases, modulates the TIRR/53BP1 complex by promoting the production of the NEAT1 short isoform, NEAT1_1. Together, we infer that NEAT1_1, and factors regulating NEAT1_1, may impact 53BP1-dependent DNA repair processes, with implications for a spectrum of diseases.",

author = "Susan Kilgas and Aleem Syed and Patrick Toolan-Kerr and Swift, {Michelle L.} and Shrabasti Roychoudhury and Aniruddha Sarkar and Sarah Wilkins and Mikayla Quigley and Poetsch, {Anna R.} and Botuyan, {Maria Victoria} and Gaofeng Cui and Georges Mer and Jernej Ule and Pascal Dran{\'e} and Dipanjan Chowdhury",

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doi = "10.1038/s41467-024-52862-w",

language = "English (US)",

volume = "15",

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T1 - NEAT1 modulates the TIRR/53BP1 complex to maintain genome integrity

AU - Kilgas, Susan

AU - Syed, Aleem

AU - Toolan-Kerr, Patrick

AU - Swift, Michelle L.

AU - Roychoudhury, Shrabasti

AU - Sarkar, Aniruddha

AU - Wilkins, Sarah

AU - Quigley, Mikayla

AU - Poetsch, Anna R.

AU - Botuyan, Maria Victoria

AU - Cui, Gaofeng

AU - Mer, Georges

AU - Ule, Jernej

AU - Drané, Pascal

AU - Chowdhury, Dipanjan

PY - 2024/12

Y1 - 2024/12

N2 - Tudor Interacting Repair Regulator (TIRR) is an RNA-binding protein (RBP) that interacts directly with 53BP1, restricting its access to DNA double-strand breaks (DSBs) and its association with p53. We utilized iCLIP to identify RNAs that directly bind to TIRR within cells, identifying the long non-coding RNA NEAT1 as the primary RNA partner. The high affinity of TIRR for NEAT1 is due to prevalent G-rich motifs in the short isoform (NEAT1_1) region of NEAT1. This interaction destabilizes the TIRR/53BP1 complex, promoting 53BP1’s function. NEAT1_1 is enriched during the G1 phase of the cell cycle, thereby ensuring that TIRR-dependent inhibition of 53BP1’s function is cell cycle-dependent. TDP-43, an RBP that is implicated in neurodegenerative diseases, modulates the TIRR/53BP1 complex by promoting the production of the NEAT1 short isoform, NEAT1_1. Together, we infer that NEAT1_1, and factors regulating NEAT1_1, may impact 53BP1-dependent DNA repair processes, with implications for a spectrum of diseases.

AB - Tudor Interacting Repair Regulator (TIRR) is an RNA-binding protein (RBP) that interacts directly with 53BP1, restricting its access to DNA double-strand breaks (DSBs) and its association with p53. We utilized iCLIP to identify RNAs that directly bind to TIRR within cells, identifying the long non-coding RNA NEAT1 as the primary RNA partner. The high affinity of TIRR for NEAT1 is due to prevalent G-rich motifs in the short isoform (NEAT1_1) region of NEAT1. This interaction destabilizes the TIRR/53BP1 complex, promoting 53BP1’s function. NEAT1_1 is enriched during the G1 phase of the cell cycle, thereby ensuring that TIRR-dependent inhibition of 53BP1’s function is cell cycle-dependent. TDP-43, an RBP that is implicated in neurodegenerative diseases, modulates the TIRR/53BP1 complex by promoting the production of the NEAT1 short isoform, NEAT1_1. Together, we infer that NEAT1_1, and factors regulating NEAT1_1, may impact 53BP1-dependent DNA repair processes, with implications for a spectrum of diseases.

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NEAT1 modulates the TIRR/53BP1 complex to maintain genome integrity

Abstract

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