Pseudouridine RNA avoids immune detection through impaired endolysosomal processing and TLR engagement

Marleen Bérouti; Mirko Wagner; Wilhelm Greulich; Ignazio Piseddu; Jan Gärtig; Larissa Hansbauer; Christoph Müller-Hermes; Matthias Heiss; Alexander Pichler; Annika J. Tölke; Gregor Witte; Karl Peter Hopfner; David Anz; Michael Sattler; Thomas Carell; Veit Hornung

doi:10.1016/j.cell.2025.05.032

Pseudouridine RNA avoids immune detection through impaired endolysosomal processing and TLR engagement

Marleen Bérouti
, Mirko Wagner
, Wilhelm Greulich
, Ignazio Piseddu
, Jan Gärtig
, Larissa Hansbauer
, Christoph Müller-Hermes
, Matthias Heiss
, Alexander Pichler
, Annika J. Tölke
, Gregor Witte
, Karl Peter Hopfner
, David Anz
, Michael Sattler
, Thomas Carell
, Veit Hornung

Chair of Biomolecular NMR-Spectroscopy

University of Munich
Ludwig-Maximilians-Universität München
Institute of Computational Biology
Technical University of Munich

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

25 Scopus citations

Abstract

Recognition of exogenous RNA by Toll-like receptors (TLRs) is central to pathogen defense. Using two distinct binding pockets, TLR7 and TLR8 recognize RNA degradation products generated by endolysosomal nucleases. RNA modifications present in endogenous RNA prevent TLR activation; notably, pseudouridine-containing RNA lacks immunostimulatory activity. Indeed, this property has been critical to the successful implementation of mRNA technology for medical purposes. However, the molecular mechanism for this immune evasion has remained elusive. Here, we report that RNase T2 and PLD exonucleases do not adequately process pseudouridine-containing RNA to generate TLR-agonistic ligands. As a second safety mechanism, TLR8 neglects pseudouridine as a ligand for its first binding pocket and TLR7 neglects pseudouridine-containing RNA as a ligand for its second pocket. Interestingly, the medically used N1-methylpseudouridine also evades RNase T2, PLD3, and PLD4 processing but is able to directly activate TLR8. Taken together, our findings provide a molecular basis for self-avoidance by RNA-sensing TLRs.

Original language	English
Pages (from-to)	4880-4895.e15
Journal	Cell
Volume	188
Issue number	18
DOIs	https://doi.org/10.1016/j.cell.2025.05.032
State	Published - 4 Sep 2025

Keywords

N1-methylpseudouridine
PLD3
PLD4
RNase T2
TLR7
TLR8
Toll-like receptors
endolysosomal nucleases
immunostimulation
pseudouridine

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10.1016/j.cell.2025.05.032

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Bérouti, M., Wagner, M., Greulich, W., Piseddu, I., Gärtig, J., Hansbauer, L., Müller-Hermes, C., Heiss, M., Pichler, A., Tölke, A. J., Witte, G., Hopfner, K. P., Anz, D., Sattler, M., Carell, T., & Hornung, V. (2025). Pseudouridine RNA avoids immune detection through impaired endolysosomal processing and TLR engagement. Cell, 188(18), 4880-4895.e15. https://doi.org/10.1016/j.cell.2025.05.032

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title = "Pseudouridine RNA avoids immune detection through impaired endolysosomal processing and TLR engagement",

abstract = "Recognition of exogenous RNA by Toll-like receptors (TLRs) is central to pathogen defense. Using two distinct binding pockets, TLR7 and TLR8 recognize RNA degradation products generated by endolysosomal nucleases. RNA modifications present in endogenous RNA prevent TLR activation; notably, pseudouridine-containing RNA lacks immunostimulatory activity. Indeed, this property has been critical to the successful implementation of mRNA technology for medical purposes. However, the molecular mechanism for this immune evasion has remained elusive. Here, we report that RNase T2 and PLD exonucleases do not adequately process pseudouridine-containing RNA to generate TLR-agonistic ligands. As a second safety mechanism, TLR8 neglects pseudouridine as a ligand for its first binding pocket and TLR7 neglects pseudouridine-containing RNA as a ligand for its second pocket. Interestingly, the medically used N1-methylpseudouridine also evades RNase T2, PLD3, and PLD4 processing but is able to directly activate TLR8. Taken together, our findings provide a molecular basis for self-avoidance by RNA-sensing TLRs.",

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Bérouti, M, Wagner, M, Greulich, W, Piseddu, I, Gärtig, J, Hansbauer, L, Müller-Hermes, C, Heiss, M, Pichler, A, Tölke, AJ, Witte, G, Hopfner, KP, Anz, D, Sattler, M, Carell, T & Hornung, V 2025, 'Pseudouridine RNA avoids immune detection through impaired endolysosomal processing and TLR engagement', Cell, vol. 188, no. 18, pp. 4880-4895.e15. https://doi.org/10.1016/j.cell.2025.05.032

TY - JOUR

T1 - Pseudouridine RNA avoids immune detection through impaired endolysosomal processing and TLR engagement

AU - Bérouti, Marleen

AU - Wagner, Mirko

AU - Greulich, Wilhelm

AU - Piseddu, Ignazio

AU - Gärtig, Jan

AU - Hansbauer, Larissa

AU - Müller-Hermes, Christoph

AU - Heiss, Matthias

AU - Pichler, Alexander

AU - Tölke, Annika J.

AU - Witte, Gregor

AU - Hopfner, Karl Peter

AU - Anz, David

AU - Sattler, Michael

AU - Carell, Thomas

AU - Hornung, Veit

PY - 2025/9/4

Y1 - 2025/9/4

N2 - Recognition of exogenous RNA by Toll-like receptors (TLRs) is central to pathogen defense. Using two distinct binding pockets, TLR7 and TLR8 recognize RNA degradation products generated by endolysosomal nucleases. RNA modifications present in endogenous RNA prevent TLR activation; notably, pseudouridine-containing RNA lacks immunostimulatory activity. Indeed, this property has been critical to the successful implementation of mRNA technology for medical purposes. However, the molecular mechanism for this immune evasion has remained elusive. Here, we report that RNase T2 and PLD exonucleases do not adequately process pseudouridine-containing RNA to generate TLR-agonistic ligands. As a second safety mechanism, TLR8 neglects pseudouridine as a ligand for its first binding pocket and TLR7 neglects pseudouridine-containing RNA as a ligand for its second pocket. Interestingly, the medically used N1-methylpseudouridine also evades RNase T2, PLD3, and PLD4 processing but is able to directly activate TLR8. Taken together, our findings provide a molecular basis for self-avoidance by RNA-sensing TLRs.

AB - Recognition of exogenous RNA by Toll-like receptors (TLRs) is central to pathogen defense. Using two distinct binding pockets, TLR7 and TLR8 recognize RNA degradation products generated by endolysosomal nucleases. RNA modifications present in endogenous RNA prevent TLR activation; notably, pseudouridine-containing RNA lacks immunostimulatory activity. Indeed, this property has been critical to the successful implementation of mRNA technology for medical purposes. However, the molecular mechanism for this immune evasion has remained elusive. Here, we report that RNase T2 and PLD exonucleases do not adequately process pseudouridine-containing RNA to generate TLR-agonistic ligands. As a second safety mechanism, TLR8 neglects pseudouridine as a ligand for its first binding pocket and TLR7 neglects pseudouridine-containing RNA as a ligand for its second pocket. Interestingly, the medically used N1-methylpseudouridine also evades RNase T2, PLD3, and PLD4 processing but is able to directly activate TLR8. Taken together, our findings provide a molecular basis for self-avoidance by RNA-sensing TLRs.

KW - N1-methylpseudouridine

KW - PLD3

KW - PLD4

KW - RNase T2

KW - TLR7

KW - TLR8

KW - Toll-like receptors

KW - endolysosomal nucleases

KW - immunostimulation

KW - pseudouridine

UR - https://www.scopus.com/pages/publications/105009265772

U2 - 10.1016/j.cell.2025.05.032

DO - 10.1016/j.cell.2025.05.032

M3 - Article

AN - SCOPUS:105009265772

SN - 0092-8674

VL - 188

SP - 4880-4895.e15

JO - Cell

JF - Cell

IS - 18

ER -

Pseudouridine RNA avoids immune detection through impaired endolysosomal processing and TLR engagement

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Keywords

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