An old friend with a new face: tRNA-derived small RNAs with big regulatory potential in cancer biology

doi:10.1038/s41416-023-02191-4

Review

. 2023 Feb 9.

doi: 10.1038/s41416-023-02191-4. Online ahead of print.

An old friend with a new face: tRNA-derived small RNAs with big regulatory potential in cancer biology

Arianna Di Fazio¹, Monika Gullerova²

Affiliations

PMID: 36759729
DOI: 10.1038/s41416-023-02191-4

Review

An old friend with a new face: tRNA-derived small RNAs with big regulatory potential in cancer biology

Arianna Di Fazio et al. Br J Cancer. 2023.

. 2023 Feb 9.

doi: 10.1038/s41416-023-02191-4. Online ahead of print.

Authors

Arianna Di Fazio¹, Monika Gullerova²

Affiliations

¹ Sir William Dunn School of Pathology, University of Oxford, Oxford, OX1 3RE, UK.
² Sir William Dunn School of Pathology, University of Oxford, Oxford, OX1 3RE, UK. monika.gullerova@path.ox.ac.uk.

PMID: 36759729
DOI: 10.1038/s41416-023-02191-4

Abstract

Transfer RNAs (tRNAs) are small non-coding RNAs (sncRNAs) essential for protein translation. Emerging evidence suggests that tRNAs can also be processed into smaller fragments, tRNA-derived small RNAs (tsRNAs), a novel class of sncRNAs with powerful applications and high biological relevance to cancer. tsRNAs biogenesis is heterogeneous and involves different ribonucleases, such as Angiogenin and Dicer. For many years, tsRNAs were thought to be just degradation products. However, accumulating evidence shows their roles in gene expression: either directly via destabilising the mRNA or the ribosomal machinery, or indirectly via regulating the expression of ribosomal components. Furthermore, tsRNAs participate in various biological processes linked to cancer, including apoptosis, cell cycle, immune response, and retroviral insertion into the human genome. It is emerging that tsRNAs have significant therapeutic potential. Endogenous tsRNAs can be used as cancer biomarkers, while synthetic tsRNAs and antisense oligonucleotides can be employed to regulate gene expression. In this review, we are recapitulating the regulatory roles of tsRNAs, with a focus on cancer biology.

References

1. Holley R, Apgar J, Everett G, Madison J, Marquisee M, Merrill S, et al. Structure of a ribonucleic acid. Science. 1965;147:1462–5.
1. Hoagland MB, Stephenson ML, Scott JF, Hecht LI, Zamecnik PC. A soluble ribonucleic acid intermediate in protein synthesis. J Biol Chem. 1958;231:241–57.
1. Borek E, Baliga BS, Gehrke CW, Kuo CW, Belman S, Troll W, et al. High turnover rate of transfer RNA in tumor tissue. Cancer Res. 1977;37:3362–6.
1. Speer J, Gehrke CW, Kuo KC, Waalkes TP, Borek E. tRNA breakdown products as markers for cancer. Cancer. 1979;44:2120–3.
1. Shi J, Zhang Y, Tan D, Zhang X, Yan M, Zhang Y, et al. PANDORA-seq expands the repertoire of regulatory small RNAs by overcoming RNA modifications. Nat Cell Biol. 2021;23:424–36.

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Grant support

BVR01170/Cancer Research UK (CRUK)

[1] Holley R, Apgar J, Everett G, Madison J, Marquisee M, Merrill S, et al. Structure of a ribonucleic acid. Science. 1965;147:1462–5.

[2] Holley R, Apgar J, Everett G, Madison J, Marquisee M, Merrill S, et al. Structure of a ribonucleic acid. Science. 1965;147:1462–5.

[3] Hoagland MB, Stephenson ML, Scott JF, Hecht LI, Zamecnik PC. A soluble ribonucleic acid intermediate in protein synthesis. J Biol Chem. 1958;231:241–57.

[4] Hoagland MB, Stephenson ML, Scott JF, Hecht LI, Zamecnik PC. A soluble ribonucleic acid intermediate in protein synthesis. J Biol Chem. 1958;231:241–57.

[5] Borek E, Baliga BS, Gehrke CW, Kuo CW, Belman S, Troll W, et al. High turnover rate of transfer RNA in tumor tissue. Cancer Res. 1977;37:3362–6.

[6] Borek E, Baliga BS, Gehrke CW, Kuo CW, Belman S, Troll W, et al. High turnover rate of transfer RNA in tumor tissue. Cancer Res. 1977;37:3362–6.

[7] Speer J, Gehrke CW, Kuo KC, Waalkes TP, Borek E. tRNA breakdown products as markers for cancer. Cancer. 1979;44:2120–3.

[8] Speer J, Gehrke CW, Kuo KC, Waalkes TP, Borek E. tRNA breakdown products as markers for cancer. Cancer. 1979;44:2120–3.

[9] Shi J, Zhang Y, Tan D, Zhang X, Yan M, Zhang Y, et al. PANDORA-seq expands the repertoire of regulatory small RNAs by overcoming RNA modifications. Nat Cell Biol. 2021;23:424–36.

[10] Shi J, Zhang Y, Tan D, Zhang X, Yan M, Zhang Y, et al. PANDORA-seq expands the repertoire of regulatory small RNAs by overcoming RNA modifications. Nat Cell Biol. 2021;23:424–36.