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. 2024 Dec;5(12):1868-1884.
doi: 10.1038/s43018-024-00844-8. Epub 2024 Oct 22.

Selenocysteine tRNA methylation promotes oxidative stress resistance in melanoma metastasis

Leona A Nease  1   2 Kellsey P Church  1 Ines Delclaux  1 Shino Murakami  2 Maider Astorkia  3 Marwa Zerhouni  1 Graciela Cascio  1 Riley O Hughes  1   2 Kelsey N Aguirre  1 Paul Zumbo  3 Lukas E Dow  1   4   5 Samie Jaffrey  2 Doron Betel  3   6   7 Elena Piskounova  8   9   10
Affiliations

Selenocysteine tRNA methylation promotes oxidative stress resistance in melanoma metastasis

Leona A Nease et al. Nat Cancer. 2024 Dec.

Abstract

Selenocysteine-containing proteins play a central role in redox homeostasis. Their translation is a highly regulated process and is dependent on two tRNASec isodecoders differing by a single 2'-O-ribose methylation called Um34. Here we characterized FTSJ1 as the Um34 methyltransferase and show that its activity is required for efficient selenocysteine insertion at the UGA stop codon during translation. Specifically, loss of Um34 leads to ribosomal stalling and decreased UGA recoding. FTSJ1-deficient cells are more sensitive to oxidative stress and show decreased metastatic colonization in xenograft models of melanoma metastasis. We found that FTSJ1 mediates efficient translation of selenoproteins essential for the cellular antioxidant response. Our findings uncover a role for tRNASec Um34 modification in oxidative stress resistance and highlight FTSJ1 as a potential therapeutic target specific for metastatic disease.

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Conflict of interest statement

Competing interests: L.E.D. is an advisor and holds equity in Mirimus, Inc., and is a consultant for Volastra Therapeutics and Frazier Healthcare Partners. The other authors declare no competing interests.

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