Human AlkB Homolog ABH8 Is a tRNA Methyltransferase Required for Wobble Uridine Modification and DNA Damage Survival

Fu, Dragony; Brophy, Jennifer Ann; Atmore, Kyle Aaquil; Begley, Ulrike; Begley, Thomas J.; Paules, Richard S.; Chan, Clement T. Y.; Dedon, Peter C; Samson, Leona D

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Fu, Dragony; Brophy, Jennifer Ann; Atmore, Kyle Aaquil; Begley, Ulrike; Begley, Thomas J.; ... Show more

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Abstract

tRNA nucleosides are extensively modified to ensure their proper function in translation. However, many of the enzymes responsible for tRNA modifications in mammals await identification. Here, we show that human AlkB homolog 8 (ABH8) catalyzes tRNA methylation to generate 5-methylcarboxymethyl uridine (mcm[superscript 5]U) at the wobble position of certain tRNAs, a critical anticodon loop modification linked to DNA damage survival. We find that ABH8 interacts specifically with tRNAs containing mcm5U and that purified ABH8 complexes methylate RNA in vitro. Significantly, ABH8 depletion in human cells reduces endogenous levels of mcm[superscript 5]U in RNA and increases cellular sensitivity to DNA-damaging agents. Moreover, DNA-damaging agents induce ABH8 expression in an ATM-dependent manner. These results expand the role of mammalian AlkB proteins beyond that of direct DNA repair and support a regulatory mechanism in the DNA damage response pathway involving modulation of tRNA modification.

Date issued

2010-03

URI

http://hdl.handle.net/1721.1/66893

Department

Massachusetts Institute of Technology. Center for Environmental Health Sciences; Massachusetts Institute of Technology. Department of Biological Engineering; Massachusetts Institute of Technology. Department of Biology; Massachusetts Institute of Technology. Department of Chemistry; Koch Institute for Integrative Cancer Research at MIT

Journal

Molecular and Cellular Biology

Publisher

American Society for Microbiology

Citation

Fu, D. et al. “Human AlkB Homolog ABH8 Is a tRNA Methyltransferase Required for Wobble Uridine Modification and DNA Damage Survival.” Molecular and Cellular Biology 30 (2010): 2449-2459. Web. 2 Nov. 2011. © 2010 American Society for Microbiology

Version: Author's final manuscript

ISSN

0270-7306

1098-5549

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