[R01] Translational regulation in exposure biology - Xenobiotic-induced reprograming of tRNA modifications and selective translation of codon-biased response genes in rat and human models
Ente: National Institute of Environmental Health Sciences
Scadenza: 2027-06-30
Importo max: 440.279 EUR
Paese: US
Descrizione
ABSTRACT
Human cells respond to xenobiotic exposures by altering gene expression, with the ~50 RNA modifications
comprising the epitranscriptome emerging as key regulators of the stress response. We have developed unique
RNA modification detection (LC-MS/MS, AQRNA-seq), tRNA gene expression (AQRNA-seq), and computational
(Codon Analytics) technologies to show that yeast, rat livers, mice and cultured human cells respond to
xenobiotic exposures with coordinated changes in the levels of tRNA modifications and tRNAs, to
regulate codon-biased translation of important stress response proteins. Using liver from rats exposed to
six drugs and toxicants in the NTP DrugMatrix program, we observed that 23 different tRNA modifications were
uniquely altered in toxicant-, dose- and time-dependent manner after exposure. Among the changes, arsenite
increased the level of queuosine (Q), a key tRNA wobble modification that decodes codons for four amino
acids (His, Tyr, Asn, Asp). This behavior was recapitulated in human liver cells (HEPG2), with Q incorporation
into tRNA in response to sodium arsenite required for cell viability, reactive oxygen species (ROS) detoxification,
and mitochondrial function, and decreased Q levels promoting changes in translation. Similarly, the wobble U
tRNA wobble base 5-methoxycarbonyl-methyluridine (mcm5U) was also increased in response to sodium
arsenite in rat liver and HepG2 cells, with knockdown of the corresponding wobble U writer – ALKBH8 –
promoting decreased cell viability, increased ROS, and changes in mitochondrial function. We have further
shown that ALKBH8 defects disrupt the translation of selenocysteine (Sec)-containing glutathione peroxidases
(GPXs) that detoxify ROS and promote mitochondrial function. In this renewal application, we will test the
hypothesis of organ-specific tRNA reprogramming and codon-biased translation in rats and human cells
exposed to arsenite and other toxicants, and then test the idea that whole blood and white blood cells
(WBCs) serve as an accessible sampling compartment for human epitranscriptome biomarker studies.
Istituzione: STATE UNIVERSITY OF NEW YORK AT ALBANY
PI: Thomas J Begley, Peter C Dedon
Progetto: 5R01ES026856-11
Settori: National Institute of Environmental Health Sciences
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