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SLAMseq reveals potential transfer of RNA from liver to kidney in the mouse

Author

Listed:
  • Robert W. Hunter

    (Edinburgh Bioquarter
    Edinburgh Bioquarter)

  • Jialin Sun

    (Edinburgh Bioquarter
    The Affiliated Hospital of Qingdao University)

  • Trecia Palmer

    (Edinburgh Bioquarter)

  • Alicja Czopek

    (Edinburgh Bioquarter)

  • Josselin Nespoux

    (Edinburgh Bioquarter)

  • Matthew A. Bailey

    (Edinburgh Bioquarter)

  • Neeraj Dhaun

    (Edinburgh Bioquarter
    Edinburgh Bioquarter)

  • Amy H. Buck

    (University of Edinburgh)

  • James W. Dear

    (Edinburgh Bioquarter)

Abstract

Extracellular RNA (exRNA) mediates intercellular communication in lower animals; whether it serves a signalling function in mammals is uncertain. Reductionist experiments, in which a single RNA is over-expressed or tagged, have shown RNA transfer between tissues but may not be relevant to normal physiology. Here, we seek to determine the scale of RNA transfer between liver and kidney using metabolic RNA labelling in mice. We use 4-thiouracil to label RNA in hepatocytes and then detect labelled RNA in the kidney using SLAMseq: SH-Linked Alkylation for Metabolic RNA sequencing. We show that in the kidney, 5% of mRNA transcripts are labelled in health, increasing to 34% after acute hepatocellular injury. In the kidney, we do not detect labelled small RNA, but do find higher levels of the liver-enriched miRNA, miR-122 after liver injury. Our results show potential transfer of RNA from liver to kidney: a phenomenon that is augmented by liver injury. There were important limitations: we could not confidently identify transferred RNA transcripts at the single-gene level and we did not assess the physiological consequences of any RNA transfer.

Suggested Citation

  • Robert W. Hunter & Jialin Sun & Trecia Palmer & Alicja Czopek & Josselin Nespoux & Matthew A. Bailey & Neeraj Dhaun & Amy H. Buck & James W. Dear, 2025. "SLAMseq reveals potential transfer of RNA from liver to kidney in the mouse," Nature Communications, Nature, vol. 16(1), pages 1-14, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-62688-9
    DOI: 10.1038/s41467-025-62688-9
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