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Distinct RNA <i>N-</i> demethylation pathways catalyzed by nonheme iron ALKBH5 and FTO enzymes enable regulation of formaldehyde release rates

Joel D. W. Toh, Steven W. M. Crossley, Kevin J. Bruemmer, Eva J. Ge, Dan He, Diana A. Iovan, Christopher J. Chang

2020Proceedings of the National Academy of Sciences94 citationsDOIOpen Access PDF

Abstract

-demethylation pathway to catalyze conversion of m6A to hm6A with subsequent slow release of A and FA, we find that ALKBH5 catalyzes a direct m6A-to-A transformation with rapid FA release. We identify a catalytic R130/K132/Y139 triad within ALKBH5 that facilitates release of FA via an unprecedented covalent-based demethylation mechanism with direct detection of a covalent intermediate. Importantly, a K132Q mutant furnishes an ALKBH5 enzyme with an m6A demethylation profile that resembles that of FTO, establishing the importance of this residue in the proposed covalent mechanism. Finally, we show that ALKBH5 is an endogenous source of FA in the cell by activity-based sensing of FA fluxes perturbed via ALKBH5 knockdown. This work provides a fundamental biochemical rationale for nonredundant roles of these RNA demethylases beyond different substrate preferences and cellular localization, where m6A demethylation by ALKBH5 versus FTO results in release of FA, an endogenous one-carbon unit but potential genotoxin, at different rates in living systems.

Topics & Concepts

AlkBDemethylationBiochemistryBiologyGene knockdownRNAEpigeneticsDeubiquitinating enzymeEnzymeCell biologyChemistryGeneUbiquitinGene expressionDNA methylationDNA repairRNA modifications and cancerCancer-related molecular mechanisms researchCancer-related gene regulation
Distinct RNA <i>N-</i> demethylation pathways catalyzed by nonheme iron ALKBH5 and FTO enzymes enable regulation of formaldehyde release rates | Litcius