Arsenite toxicity is regulated by queuine availability and oxidation-induced reprogramming of the human tRNA epitranscriptome

Huber, Sabrina M; Begley, Ulrike; Sarkar, Anwesha; Gasperi, William; Davis, Evan T; Surampudi, Vasudha; Lee, May; Melendez, J Andres; Dedon, Peter C; Begley, Thomas J

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Huber, Sabrina M; Begley, Ulrike; Sarkar, Anwesha; Gasperi, William; Davis, Evan T; ... Show more

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Abstract

Cells respond to environmental stress by regulating gene expression at the level of both transcription and translation. The ∼50 modified ribonucleotides of the human epitranscriptome contribute to the latter, with mounting evidence that dynamic regulation of transfer RNA (tRNA) wobble modifications leads to selective translation of stress response proteins from codon-biased genes. Here we show that the response of human hepatocellular carcinoma cells to arsenite exposure is regulated by the availability of queuine, a micronutrient and essential precursor to the wobble modification queuosine (Q) on tRNAs reading GUN codons. Among oxidizing and alkylating agents at equitoxic concentrations, arsenite exposure caused an oxidant-specific increase in Q that correlated with up-regulation of proteins from codon-biased genes involved in energy metabolism. Limiting queuine increased arsenite-induced cell death, altered translation, increased reactive oxygen species levels, and caused mitochondrial dysfunction. In addition to demonstrating an epitranscriptomic facet of arsenite toxicity and response, our results highlight the links between environmental exposures, stress tolerance, RNA modifications, and micronutrients.

Date issued

2022

URI

https://hdl.handle.net/1721.1/147796

Department

Massachusetts Institute of Technology. Department of Biological Engineering

Journal

Proceedings of the National Academy of Sciences of the United States of America

Publisher

Proceedings of the National Academy of Sciences

Citation

Huber, Sabrina M, Begley, Ulrike, Sarkar, Anwesha, Gasperi, William, Davis, Evan T et al. 2022. "Arsenite toxicity is regulated by queuine availability and oxidation-induced reprogramming of the human tRNA epitranscriptome." Proceedings of the National Academy of Sciences of the United States of America, 119 (38).

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