ALL-tRNAseq enables robust tRNA profiling in tissue samples

Chantal Scheepbouwer; Ernesto Aparicio-Puerta; Cristina Gomez-Martin; Heleen Verschueren; Monique van Eijndhoven; Laurine E. Wedekind; Stavros Giannoukakos; Nathalie Hijmering; Lisa Gasparotto; Hilde T. van der Galien; Roos S. van Rijn; Eleonora Aronica; Robby Kibbelaar; Vivi M. Heine; Pieter Wesseling; David P. Noske; W. Peter Vandertop; Daphne de Jong; D. Michiel Pegtel; Michael Hackenberg; Tom Wurdinger; Alan Gerber; Danijela Koppers-Lalic

doi:https://doi.org/10.1101/gad.350233.122

ALL-tRNAseq enables robust tRNA profiling in tissue samples

Chantal Scheepbouwer, Ernesto Aparicio-Puerta, Cristina Gomez-Martin, Heleen Verschueren, Monique van Eijndhoven, Laurine E. Wedekind, Stavros Giannoukakos, Nathalie Hijmering, Lisa Gasparotto, Hilde T. van der Galien, Roos S. van Rijn, Eleonora Aronica, Robby Kibbelaar, Vivi M. Heine, Pieter Wesseling, David P. Noske, W. Peter Vandertop, Daphne de Jong, D. Michiel Pegtel, Michael HackenbergTom Wurdinger, Alan Gerber, Danijela Koppers-Lalic

Research output: Contribution to journal › Article › Academic › peer-review

8 Citations (Scopus)

Abstract

Transfer RNAs (tRNAs) are small adaptor RNAs essential for mRNA translation. Alterations in the cellular tRNA population can directly affect mRNA decoding rates and translational efficiency during cancer development and progression. To evaluate changes in the composition of the tRNA pool, multiple sequencing approaches have been developed to overcome reverse transcription blocks caused by the stable structures of these molecules and their numerous base modifications. However, it remains unclear whether current sequencing protocols faithfully capture tRNAs existing in cells or tissues. This is specifically challenging for clinical tissue samples that often present variable RNA qualities. For this reason, we developed ALL-tRNAseq, which combines the highly processive MarathonRT and RNA demethylation for the robust assessment of tRNA expression, together with a randomized adapter ligation strategy prior to reverse transcription to assess tRNA fragmentation levels in both cell lines and tissues. Incorporation of tRNA fragments not only informed on sample integrity but also significantly improved tRNA profiling of tissue samples. Our data showed that our profiling strategy effectively improves classification of oncogenic signatures in glioblastoma and diffuse large B-cell lymphoma tissues, particularly for samples presenting higher levels of RNA fragmentation, further highlighting the utility of ALL-tRNAseq for translational research.

Original language	English
Pages (from-to)	243-257
Number of pages	15
Journal	Genes and Development
Volume	37
Issue number	5-6
Early online date	21 Feb 2023
DOIs	https://doi.org/10.1101/gad.350233.122
Publication status	Published - 1 Mar 2023

Keywords

cancer
high-throughput sequencing
tissue samples
transfer RNA

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Scheepbouwer, C., Aparicio-Puerta, E., Gomez-Martin, C., Verschueren, H., van Eijndhoven, M., Wedekind, L. E., Giannoukakos, S., Hijmering, N., Gasparotto, L., van der Galien, H. T., van Rijn, R. S., Aronica, E., Kibbelaar, R., Heine, V. M., Wesseling, P., Noske, D. P., Vandertop, W. P., de Jong, D., Pegtel, D. M., ... Koppers-Lalic, D. (2023). ALL-tRNAseq enables robust tRNA profiling in tissue samples. Genes and Development, 37(5-6), 243-257. https://doi.org/10.1101/gad.350233.122

@article{5e921a7f8d2c4ee580b86adf0158df36,

title = "ALL-tRNAseq enables robust tRNA profiling in tissue samples",

abstract = "Transfer RNAs (tRNAs) are small adaptor RNAs essential for mRNA translation. Alterations in the cellular tRNA population can directly affect mRNA decoding rates and translational efficiency during cancer development and progression. To evaluate changes in the composition of the tRNA pool, multiple sequencing approaches have been developed to overcome reverse transcription blocks caused by the stable structures of these molecules and their numerous base modifications. However, it remains unclear whether current sequencing protocols faithfully capture tRNAs existing in cells or tissues. This is specifically challenging for clinical tissue samples that often present variable RNA qualities. For this reason, we developed ALL-tRNAseq, which combines the highly processive MarathonRT and RNA demethylation for the robust assessment of tRNA expression, together with a randomized adapter ligation strategy prior to reverse transcription to assess tRNA fragmentation levels in both cell lines and tissues. Incorporation of tRNA fragments not only informed on sample integrity but also significantly improved tRNA profiling of tissue samples. Our data showed that our profiling strategy effectively improves classification of oncogenic signatures in glioblastoma and diffuse large B-cell lymphoma tissues, particularly for samples presenting higher levels of RNA fragmentation, further highlighting the utility of ALL-tRNAseq for translational research.",

keywords = "cancer, high-throughput sequencing, tissue samples, transfer RNA",

author = "Chantal Scheepbouwer and Ernesto Aparicio-Puerta and Cristina Gomez-Martin and Heleen Verschueren and {van Eijndhoven}, Monique and Wedekind, {Laurine E.} and Stavros Giannoukakos and Nathalie Hijmering and Lisa Gasparotto and {van der Galien}, {Hilde T.} and {van Rijn}, {Roos S.} and Eleonora Aronica and Robby Kibbelaar and Heine, {Vivi M.} and Pieter Wesseling and Noske, {David P.} and Vandertop, {W. Peter} and {de Jong}, Daphne and Pegtel, {D. Michiel} and Michael Hackenberg and Tom Wurdinger and Alan Gerber and Danijela Koppers-Lalic",

note = "Funding Information: This work was supported by the Dutch Cancer Society (KWF 2016-10476 to D.K.-L.), the Cancer Center Amsterdam Foundation (CCA2017-2-16 to D.K.-L.), and “Stichting MRD Hodgkin Lymphoma” (to D.M.P.). C.S was supported by a Cancer Center Amsterdam Foundation grant (CCA2021-5-26 to A.G.). A.G. was supported by the Nederlandse Organisatie voor Wetenschap-pelijk Onderzoek (NWO) Talent Programme Vidi grant (VI.V-idi.193.107). S.G., M.H., D.K.-L., and T.W. received funding from the European Union{\textquoteright}s Horizon 2020 research and innovation program under the Marie Sk{\l}odowska-Curie grant agreement number 765492. We thank Disa Tehler for stimulating discussions, and we are grateful to Hakan Kalay for assistance with the purification of AlkB enzymes. We thank Bram van den Broek for his contribution to the graphical images. Publisher Copyright: {\textcopyright} 2023 Scheepbouwer et al.",

year = "2023",

month = mar,

day = "1",

doi = "https://doi.org/10.1101/gad.350233.122",

language = "English",

volume = "37",

pages = "243--257",

journal = "Genes and Development",

issn = "0890-9369",

publisher = "Cold Spring Harbor Laboratory Press",

number = "5-6",

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Scheepbouwer, C, Aparicio-Puerta, E, Gomez-Martin, C, Verschueren, H, van Eijndhoven, M, Wedekind, LE, Giannoukakos, S, Hijmering, N, Gasparotto, L, van der Galien, HT, van Rijn, RS, Aronica, E, Kibbelaar, R, Heine, VM , Wesseling, P , Noske, DP , Vandertop, WP , de Jong, D , Pegtel, DM, Hackenberg, M, Wurdinger, T, Gerber, A & Koppers-Lalic, D 2023, 'ALL-tRNAseq enables robust tRNA profiling in tissue samples', Genes and Development, vol. 37, no. 5-6, pp. 243-257. https://doi.org/10.1101/gad.350233.122

TY - JOUR

T1 - ALL-tRNAseq enables robust tRNA profiling in tissue samples

AU - Scheepbouwer, Chantal

AU - Aparicio-Puerta, Ernesto

AU - Gomez-Martin, Cristina

AU - Verschueren, Heleen

AU - van Eijndhoven, Monique

AU - Wedekind, Laurine E.

AU - Giannoukakos, Stavros

AU - Hijmering, Nathalie

AU - Gasparotto, Lisa

AU - van der Galien, Hilde T.

AU - van Rijn, Roos S.

AU - Aronica, Eleonora

AU - Kibbelaar, Robby

AU - Heine, Vivi M.

AU - Wesseling, Pieter

AU - Noske, David P.

AU - Vandertop, W. Peter

AU - de Jong, Daphne

AU - Pegtel, D. Michiel

AU - Hackenberg, Michael

AU - Wurdinger, Tom

AU - Gerber, Alan

AU - Koppers-Lalic, Danijela

N1 - Funding Information: This work was supported by the Dutch Cancer Society (KWF 2016-10476 to D.K.-L.), the Cancer Center Amsterdam Foundation (CCA2017-2-16 to D.K.-L.), and “Stichting MRD Hodgkin Lymphoma” (to D.M.P.). C.S was supported by a Cancer Center Amsterdam Foundation grant (CCA2021-5-26 to A.G.). A.G. was supported by the Nederlandse Organisatie voor Wetenschap-pelijk Onderzoek (NWO) Talent Programme Vidi grant (VI.V-idi.193.107). S.G., M.H., D.K.-L., and T.W. received funding from the European Union’s Horizon 2020 research and innovation program under the Marie Skłodowska-Curie grant agreement number 765492. We thank Disa Tehler for stimulating discussions, and we are grateful to Hakan Kalay for assistance with the purification of AlkB enzymes. We thank Bram van den Broek for his contribution to the graphical images. Publisher Copyright: © 2023 Scheepbouwer et al.

PY - 2023/3/1

Y1 - 2023/3/1

N2 - Transfer RNAs (tRNAs) are small adaptor RNAs essential for mRNA translation. Alterations in the cellular tRNA population can directly affect mRNA decoding rates and translational efficiency during cancer development and progression. To evaluate changes in the composition of the tRNA pool, multiple sequencing approaches have been developed to overcome reverse transcription blocks caused by the stable structures of these molecules and their numerous base modifications. However, it remains unclear whether current sequencing protocols faithfully capture tRNAs existing in cells or tissues. This is specifically challenging for clinical tissue samples that often present variable RNA qualities. For this reason, we developed ALL-tRNAseq, which combines the highly processive MarathonRT and RNA demethylation for the robust assessment of tRNA expression, together with a randomized adapter ligation strategy prior to reverse transcription to assess tRNA fragmentation levels in both cell lines and tissues. Incorporation of tRNA fragments not only informed on sample integrity but also significantly improved tRNA profiling of tissue samples. Our data showed that our profiling strategy effectively improves classification of oncogenic signatures in glioblastoma and diffuse large B-cell lymphoma tissues, particularly for samples presenting higher levels of RNA fragmentation, further highlighting the utility of ALL-tRNAseq for translational research.

AB - Transfer RNAs (tRNAs) are small adaptor RNAs essential for mRNA translation. Alterations in the cellular tRNA population can directly affect mRNA decoding rates and translational efficiency during cancer development and progression. To evaluate changes in the composition of the tRNA pool, multiple sequencing approaches have been developed to overcome reverse transcription blocks caused by the stable structures of these molecules and their numerous base modifications. However, it remains unclear whether current sequencing protocols faithfully capture tRNAs existing in cells or tissues. This is specifically challenging for clinical tissue samples that often present variable RNA qualities. For this reason, we developed ALL-tRNAseq, which combines the highly processive MarathonRT and RNA demethylation for the robust assessment of tRNA expression, together with a randomized adapter ligation strategy prior to reverse transcription to assess tRNA fragmentation levels in both cell lines and tissues. Incorporation of tRNA fragments not only informed on sample integrity but also significantly improved tRNA profiling of tissue samples. Our data showed that our profiling strategy effectively improves classification of oncogenic signatures in glioblastoma and diffuse large B-cell lymphoma tissues, particularly for samples presenting higher levels of RNA fragmentation, further highlighting the utility of ALL-tRNAseq for translational research.

KW - cancer

KW - high-throughput sequencing

KW - tissue samples

KW - transfer RNA

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DO - https://doi.org/10.1101/gad.350233.122

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SN - 0890-9369

VL - 37

SP - 243

EP - 257

JO - Genes and Development

JF - Genes and Development

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ER -

ALL-tRNAseq enables robust tRNA profiling in tissue samples

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Keywords

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