2'-O-Methylation of the second transcribed nucleotide within the mRNA 5' cap impacts the protein production level in a cell-specific manner and contributes to RNA immune evasion

Drazkowska, Karolina; Tomecki, Rafal; Warminski, Marcin; Baran, Natalia; Cysewski, Dominik; Depaix, Anaïs; Kasprzyk, Renata; Kowalska, Joanna; Jemielity, Jacek; Sikorski, Pawel J.

Publikation:
2'-O-Methylation of the second transcribed nucleotide within the mRNA 5' cap impacts the protein production level in a cell-specific manner and contributes to RNA immune evasion

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Drazkowska_2-srmwzoueqp3j7.pdfGröße: 3.77 MBDownloads: 667

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2022

Autor:innen

Drazkowska, Karolina

Tomecki, Rafal

Warminski, Marcin

Baran, Natalia

Cysewski, Dominik

Depaix, Anaïs

Kasprzyk, Renata

Kowalska, Joanna

Jemielity, Jacek

Sikorski, Pawel J.

Open Access-Veröffentlichung

Open Access Gold

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Biologie: Publikationen

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Nucleic Acids Research. Oxford University Press. 2022, 50(16), pp. 9051-9071. eISSN 1362-4962. Available under: doi: 10.1093/nar/gkac722

Zusammenfassung

In mammals, m7G-adjacent nucleotides undergo extensive modifications. Ribose of the first or first and second transcribed nucleotides can be subjected to 2'-O-methylation to form cap1 or cap2, respectively. When the first transcribed nucleotide is 2'-O-methylated adenosine, it can be additionally modified to N6,2'-O-dimethyladenosine (m6Am). Recently, the crucial role of cap1 in distinguishing between 'self' and 'non-self' in mammalian cells during viral infection was revealed. Here, we attempted to understand the impact of cap methylations on RNA-related processes. Therefore, we synthesized tetranucleotide cap analogues and used them for RNA capping during in vitro transcription. Using this tool, we found that 2'-O-methylation of the second transcribed nucleotide within the mRNA 5' cap influences protein production levels in a cell-specific manner. This modification can strongly hamper protein biosynthesis or have no influence on protein production levels, depending on the cell line. Interestingly, 2'-O-methylation of the second transcribed nucleotide and the presence of m6Am as the first transcribed nucleotide serve as determinants that define transcripts as 'self' and contribute to transcript escape from the host innate immune response. Additionally, cap methylation status does not influence transcript affinity towards translation initiation factor eIF4E or in vitro susceptibility to decapping by DCP2; however, we observe the resistance of cap2-RNA to DXO (decapping exoribonuclease)-mediated decapping and degradation.

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570 Biowissenschaften, Biologie

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ISO 690

DRAZKOWSKA, Karolina, Rafal TOMECKI, Marcin WARMINSKI, Natalia BARAN, Dominik CYSEWSKI, Anaïs DEPAIX, Renata KASPRZYK, Joanna KOWALSKA, Jacek JEMIELITY, Pawel J. SIKORSKI, 2022. 2'-O-Methylation of the second transcribed nucleotide within the mRNA 5' cap impacts the protein production level in a cell-specific manner and contributes to RNA immune evasion. In: Nucleic Acids Research. Oxford University Press. 2022, 50(16), pp. 9051-9071. eISSN 1362-4962. Available under: doi: 10.1093/nar/gkac722

BibTex

@article{Drazkowska2022-09-092OMet-58533,
  year={2022},
  doi={10.1093/nar/gkac722},
  title={2'-O-Methylation of the second transcribed nucleotide within the mRNA 5' cap impacts the protein production level in a cell-specific manner and contributes to RNA immune evasion},
  number={16},
  volume={50},
  journal={Nucleic Acids Research},
  pages={9051--9071},
  author={Drazkowska, Karolina and Tomecki, Rafal and Warminski, Marcin and Baran, Natalia and Cysewski, Dominik and Depaix, Anaïs and Kasprzyk, Renata and Kowalska, Joanna and Jemielity, Jacek and Sikorski, Pawel J.}
}

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    <dcterms:abstract xml:lang="eng">In mammals, m7G-adjacent nucleotides undergo extensive modifications. Ribose of the first or first and second transcribed nucleotides can be subjected to 2'-O-methylation to form cap1 or cap2, respectively. When the first transcribed nucleotide is 2'-O-methylated adenosine, it can be additionally modified to N6,2'-O-dimethyladenosine (m6Am). Recently, the crucial role of cap1 in distinguishing between 'self' and 'non-self' in mammalian cells during viral infection was revealed. Here, we attempted to understand the impact of cap methylations on RNA-related processes. Therefore, we synthesized tetranucleotide cap analogues and used them for RNA capping during in vitro transcription. Using this tool, we found that 2'-O-methylation of the second transcribed nucleotide within the mRNA 5' cap influences protein production levels in a cell-specific manner. This modification can strongly hamper protein biosynthesis or have no influence on protein production levels, depending on the cell line. Interestingly, 2'-O-methylation of the second transcribed nucleotide and the presence of m6Am as the first transcribed nucleotide serve as determinants that define transcripts as 'self' and contribute to transcript escape from the host innate immune response. Additionally, cap methylation status does not influence transcript affinity towards translation initiation factor eIF4E or in vitro susceptibility to decapping by DCP2; however, we observe the resistance of cap2-RNA to DXO (decapping exoribonuclease)-mediated decapping and degradation.</dcterms:abstract>
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Publikation: 2'-O-Methylation of the second transcribed nucleotide within the mRNA 5' cap impacts the protein production level in a cell-specific manner and contributes to RNA immune evasion

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Publikation:
2'-O-Methylation of the second transcribed nucleotide within the mRNA 5' cap impacts the protein production level in a cell-specific manner and contributes to RNA immune evasion