Human DUS1L catalyzes dihydrouridine modification at tRNA positions 16/17, and DUS1L overexpression perturbs translation

Matsuura, Jin; Akichika, Shinichiro; Wei, Fan-Yan; Suzuki, Tsutomu; Yamamoto, Takahiro; Watanabe, Yuka; Valášek, Leoš Shivaya; Mukasa, Akitake; Tomizawa, Kazuhito; Chujo, Takeshi

doi:10.1038/s42003-024-06942-8

Commun Biol

2024

DOI: 10.1038/s42003-024-06942-8

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Human DUS1L catalyzes dihydrouridine modification at tRNA positions 16/17, and DUS1L overexpression perturbs translation

Jin Matsuura,

Shinichiro Akichika,

Fan-Yan Wei

et al.

Abstract: Human cytoplasmic tRNAs contain dihydrouridine modifications at positions 16 and 17 (D16/D17). The enzyme responsible for D16/D17 formation and its cellular roles remain elusive. Here, we identify DUS1L as the human tRNA D16/D17 writer. DUS1L knockout in the glioblastoma cell lines LNZ308 and U87 causes loss of D16/D17. D formation is reconstituted in vitro using recombinant DUS1L in the presence of NADPH or NADH. DUS1L knockout/overexpression in LNZ308 cells shows that DUS1L supports cell growth. Moreover, hi… Show more

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TRMT1L-catalyzed m²₂G27 on tyrosine tRNA is required for efficient mRNA translation and cell survival under oxidative stress

Hwang,

Liao,

Barondeau

et al. 2024

Preprint

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Mapping of the epitranscriptome has revealed the chemical diversity of RNA modifications and their functional importance in regulating gene expression. Transfer RNAs (tRNAs) are one of the most modified cellular RNAs, containing on average 10-13 modifications per molecule. These modifications have been shown to be critical for several aspects of tRNA functions, such as decoding, folding, and stability. Here we report that the human RNA methyltransferase TRMT1L associates with components of the Rix1 ribosome biogenesis complex and co-sediments with pre-60S ribosomes. Using eCLIP-Seq, we show that TRMT1L binds to a subset of tRNAs and to the 28S rRNA. Additionally, we demonstrate that TRMT1L is responsible for catalyzing N2, N2-dimethylguanosine (m22G) solely at position 27 of tRNA-Tyr-GUA by Nano-tRNAseq and RNA LC-MS. Surprisingly, TRMT1L depletion also impaired the deposition of acp3U and dihydrouridine on tRNA-Tyr-GUA, Cys-GCA, and Ala-CGC. TRMT1L knockout cells have a marked decrease in tRNA-Tyr-GUA levels, coinciding with a reduction in global translation rates and hypersensitivity of oxidative stress. Our results establish TRMT1L as the elusive methyltransferase catalyzing the m22G27 modification on tRNA Tyr, resolving a long-standing gap of knowledge and highlighting its potential role in a tRNA modification circuit crucial for translation regulation and stress response.

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TRMT1L-catalyzed m²₂G27 on tyrosine tRNA is required for efficient mRNA translation and cell survival under oxidative stress

Hwang,

Liao,

Barondeau

et al. 2024

Preprint

View full text Add to dashboard Cite

show abstract

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Human DUS1L catalyzes dihydrouridine modification at tRNA positions 16/17, and DUS1L overexpression perturbs translation

Cited by 1 publication

References 62 publications

TRMT1L-catalyzed m²₂G27 on tyrosine tRNA is required for efficient mRNA translation and cell survival under oxidative stress

TRMT1L-catalyzed m²₂G27 on tyrosine tRNA is required for efficient mRNA translation and cell survival under oxidative stress

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Human DUS1L catalyzes dihydrouridine modification at tRNA positions 16/17, and DUS1L overexpression perturbs translation

Cited by 1 publication

References 62 publications

TRMT1L-catalyzed m22G27 on tyrosine tRNA is required for efficient mRNA translation and cell survival under oxidative stress

TRMT1L-catalyzed m22G27 on tyrosine tRNA is required for efficient mRNA translation and cell survival under oxidative stress

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Product

Resources

About

TRMT1L-catalyzed m²₂G27 on tyrosine tRNA is required for efficient mRNA translation and cell survival under oxidative stress

TRMT1L-catalyzed m²₂G27 on tyrosine tRNA is required for efficient mRNA translation and cell survival under oxidative stress