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. 2025 Jun 24;44(6):115735.
doi: 10.1016/j.celrep.2025.115735. Epub 2025 May 21.

PUS10-induced tRNA fragmentation impacts retrotransposon-driven inflammation

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Free article

PUS10-induced tRNA fragmentation impacts retrotransposon-driven inflammation

Magdalena Madej et al. Cell Rep. .
Free article

Abstract

Pseudouridine synthases (PUSs) catalyze the isomerization of uridine (U)-to-pseudouridine (Ψ) and have emerging roles in development and disease. How PUSs adapt gene expression under stress remains mostly unexplored. We identify an unconventional role for the Ψ "writer" PUS10 impacting intracellular innate immunity. Using Pus10 knockout mice, we uncover cell-intrinsic upregulation of interferon (IFN) signaling, conferring resistance to inflammation in vivo. Pus10 loss alters tRNA-derived small RNAs (tdRs) abundance, perturbing translation and endogenous retroelements expression. These alterations promote proinflammatory RNA-DNA hybrids accumulation, potentially activating cyclic GMP-AMP synthase (cGAS)-stimulator of interferon gene (STING). Supplementation with selected tdR pools partly rescues these effects through interactions with RNA processing factors that modulate immune responses, revealing a regulatory circuit that counteracts cell-intrinsic inflammation. By extension, we define a PUS10-specific molecular fingerprint linking its dysregulation to human autoimmune disorders, including inflammatory bowel diseases. Collectively, these findings establish PUS10 as a viral mimicry modulator, with broad implications for innate immune homeostasis and autoimmunity.

Keywords: CP: Molecular biology; PUS10; RNA-DNA hybrids; cGAS-STING; hematopoietic stem cell; inflammation; inflammatory bowel disease; interferon; pseudouridine; tRNA-derived small RNAs; transposable elements; viral mimicry.

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Conflict of interest statement

Declaration of interests C.B. and S.M. are founders and members of the scientific advisory board of SACRA Therapeutics.

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