RNA m^sup 6^A methylation regulates the ultravioletinduced DNA damage response

Cell proliferation and survival require the faithful maintenance and propagation of genetic information, which are threatened by the ubiquitous sources of DNA damage present intracellularly and in the external environment. A system of DNA repair, called the DNA damage response, detects and repairs d...

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Veröffentlicht in:	Nature (London) 2017-03, Vol.543 (7646), p.573
Hauptverfasser:	Xiang, Yang, Laurent, Benoit, Hsu, Chih-Hung, Nachtergaele, Sigrid, Lu, Zhike, Sheng, Wanqiang, Xu, Chuanyun, Chen, Hao, Ouyang, Jian, Wang, Siqing, Ling, Dominic, Hsu, Pang-Hung, Zou, Lee, Jambhekar, Ashwini, He, Chuan, Sh, Yang
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Sprache:	eng
Schlagworte:	Deoxyribonucleic acid DNA DNA damage DNA repair Irradiation Lesions Methylation Ribonucleic acid RNA
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creator	Xiang, Yang Laurent, Benoit Hsu, Chih-Hung Nachtergaele, Sigrid Lu, Zhike Sheng, Wanqiang Xu, Chuanyun Chen, Hao Ouyang, Jian Wang, Siqing Ling, Dominic Hsu, Pang-Hung Zou, Lee Jambhekar, Ashwini He, Chuan Sh, Yang
description	Cell proliferation and survival require the faithful maintenance and propagation of genetic information, which are threatened by the ubiquitous sources of DNA damage present intracellularly and in the external environment. A system of DNA repair, called the DNA damage response, detects and repairs damaged DNA and prevents cell division until the repair is complete. Here we report that methylation at the 6 position of adenosine (m6A) in RNA is rapidly (within 2 min) and transiently induced at DNA damage sites in response to ultraviolet irradiation. This modification occurs on numerous poly(A)+ transcripts and is regulated by the methyltransferase METTL3 (methyltransferase-like 3) and the demethylase FTO (fat mass and obesity-associated protein). In the absence of METTL3 catalytic activity, cells showed delayed repair of ultraviolet-induced cyclobutane pyrimidine adducts and elevated sensitivity to ultraviolet, demonstrating the importance of m6A in the ultraviolet-responsive DNA damage response. Multiple DNA polymerases are involved in the ultraviolet response, some of which resynthesize DNA after the lesion has been excised by the nucleotide excision repair pathway, while others participate in trans-lesion synthesis to allow replication past damaged lesions in S phase. DNA polymerase k (Pol k), which has been implicated in both nucleotide excision repair and trans-lesion synthesis required the catalytic activity of METTL3 for immediate localization to ultravioletinduced DNA damage sites. Importantly, Pol k overexpression qualitatively suppressed the cyclobutane pyrimidine removal defect associated with METTL3 loss. Thus, we have uncovered a novel function for RNA m6A modification in the ultraviolet-induced DNA damage response, and our findings collectively support a model in which m6A RNA serves as a beacon for the selective, rapid recruitment of Pol k to damage sites to facilitate repair and cell survival.
doi_str_mv	10.1038/nature21671
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A system of DNA repair, called the DNA damage response, detects and repairs damaged DNA and prevents cell division until the repair is complete. Here we report that methylation at the 6 position of adenosine (m6A) in RNA is rapidly (within 2 min) and transiently induced at DNA damage sites in response to ultraviolet irradiation. This modification occurs on numerous poly(A)+ transcripts and is regulated by the methyltransferase METTL3 (methyltransferase-like 3) and the demethylase FTO (fat mass and obesity-associated protein). In the absence of METTL3 catalytic activity, cells showed delayed repair of ultraviolet-induced cyclobutane pyrimidine adducts and elevated sensitivity to ultraviolet, demonstrating the importance of m6A in the ultraviolet-responsive DNA damage response. Multiple DNA polymerases are involved in the ultraviolet response, some of which resynthesize DNA after the lesion has been excised by the nucleotide excision repair pathway, while others participate in trans-lesion synthesis to allow replication past damaged lesions in S phase. DNA polymerase k (Pol k), which has been implicated in both nucleotide excision repair and trans-lesion synthesis required the catalytic activity of METTL3 for immediate localization to ultravioletinduced DNA damage sites. Importantly, Pol k overexpression qualitatively suppressed the cyclobutane pyrimidine removal defect associated with METTL3 loss. 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A system of DNA repair, called the DNA damage response, detects and repairs damaged DNA and prevents cell division until the repair is complete. Here we report that methylation at the 6 position of adenosine (m6A) in RNA is rapidly (within 2 min) and transiently induced at DNA damage sites in response to ultraviolet irradiation. This modification occurs on numerous poly(A)+ transcripts and is regulated by the methyltransferase METTL3 (methyltransferase-like 3) and the demethylase FTO (fat mass and obesity-associated protein). In the absence of METTL3 catalytic activity, cells showed delayed repair of ultraviolet-induced cyclobutane pyrimidine adducts and elevated sensitivity to ultraviolet, demonstrating the importance of m6A in the ultraviolet-responsive DNA damage response. 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A system of DNA repair, called the DNA damage response, detects and repairs damaged DNA and prevents cell division until the repair is complete. Here we report that methylation at the 6 position of adenosine (m6A) in RNA is rapidly (within 2 min) and transiently induced at DNA damage sites in response to ultraviolet irradiation. This modification occurs on numerous poly(A)+ transcripts and is regulated by the methyltransferase METTL3 (methyltransferase-like 3) and the demethylase FTO (fat mass and obesity-associated protein). In the absence of METTL3 catalytic activity, cells showed delayed repair of ultraviolet-induced cyclobutane pyrimidine adducts and elevated sensitivity to ultraviolet, demonstrating the importance of m6A in the ultraviolet-responsive DNA damage response. Multiple DNA polymerases are involved in the ultraviolet response, some of which resynthesize DNA after the lesion has been excised by the nucleotide excision repair pathway, while others participate in trans-lesion synthesis to allow replication past damaged lesions in S phase. DNA polymerase k (Pol k), which has been implicated in both nucleotide excision repair and trans-lesion synthesis required the catalytic activity of METTL3 for immediate localization to ultravioletinduced DNA damage sites. Importantly, Pol k overexpression qualitatively suppressed the cyclobutane pyrimidine removal defect associated with METTL3 loss. Thus, we have uncovered a novel function for RNA m6A modification in the ultraviolet-induced DNA damage response, and our findings collectively support a model in which m6A RNA serves as a beacon for the selective, rapid recruitment of Pol k to damage sites to facilitate repair and cell survival.</abstract><cop>London</cop><pub>Nature Publishing Group</pub><doi>10.1038/nature21671</doi></addata></record>
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subjects	Deoxyribonucleic acid DNA DNA damage DNA repair Irradiation Lesions Methylation Ribonucleic acid RNA
title	RNA m^sup 6^A methylation regulates the ultravioletinduced DNA damage response
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