4.8 Article

A stress-induced tyrosine-tRNA depletion response mediates codon-based translational repression and growth suppression

Journal

EMBO JOURNAL
Volume 40, Issue 2, Pages -

Publisher

WILEY
DOI: 10.15252/embj.2020106696

Keywords

hnRNPA1; oxidative stress; translation; tRNA; tRNA fragments

Funding

  1. NIGMS of the NIH [T32GM007739]
  2. NCI of the NIH [1F30CA247026-01]
  3. NIH [5R01CA215491-02, T32 CA 9673-39, R01CA24098-01]
  4. HHMI
  5. DOD Collaborative Scholars and Innovators Award [W81XWH-12-1-0301]
  6. Pershing Square Sohn award
  7. Breast Cancer Research Foundation award
  8. Reem-Kayden award
  9. Black Family Metastasis Center

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Eukaryotic transfer RNAs can be selectively fragmented under stress conditions, impacting translation of genes enriched in specific codons and leading to inhibition of cell growth and metabolism. This tRNA fragmentation is triggered by oxidative stress, revealing a novel regulatory pathway in response to cellular stress.
Eukaryotic transfer RNAs can become selectively fragmented upon various stresses, generating tRNA-derived small RNA fragments. Such fragmentation has been reported to impact a small fraction of the tRNA pool and thus presumed to not directly impact translation. We report that oxidative stress can rapidly generate tyrosine-tRNA(GUA) fragments in human cells-causing significant depletion of the precursor tRNA. Tyrosine-tRNA(GUA) depletion impaired translation of growth and metabolic genes enriched in cognate tyrosine codons. Depletion of tyrosine tRNA(GUA) or its translationally regulated targets USP3 and SCD repressed proliferation-revealing a dedicated tRNA-regulated growth-suppressive pathway for oxidative stress response. Tyrosine fragments are generated in a DIS3L2 exoribonuclease-dependent manner and inhibit hnRNPA1-mediated transcript destabilization. Moreover, tyrosine fragmentation is conserved in C. elegans. Thus, tRNA fragmentation can coordinately generate trans-acting small RNAs and functionally deplete a tRNA. Our findings reveal the existence of an underlying adaptive codon-based regulatory response inherent to the genetic code.

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