Charting Extracellular Transcriptomes in The Human Biofluid RNA Atlas

Eva Hulstaert; Annelien Morlion; Francisco Avila Cobos; Kimberly Verniers; Justine Nuytens; Eveline Vanden Eynde; Nurten Yigit; Jasper Anckaert; Anja Geerts; Pieter Hindryckx; Peggy Jacques; Guy Brusselle; Ken R. Bracke; Tania Maes; Thomas Malfait; Thierry Derveaux; Virginie Ninclaus; Caroline Van Cauwenbergh; Kristien Roelens; Ellen Roets; Dimitri Hemelsoet; Kelly Tilleman; Liève Brochez; Scott Kuersten; Lukas M. Simon; Sebastian Karg; Alexandra Kautzky-Willers; Michael Leutner; Christa Nöhammer; Ondřej Slabý; Roméo Willinge Prins; Jan Köster; Steve Lefever; Gary P. Schroth; Jo Vandesompele; Pieter Mestdagh

doi:10.1016/j.celrep.2020.108552

Charting Extracellular Transcriptomes in The Human Biofluid RNA Atlas

Eva Hulstaert(Ghent University Hospital), Annelien Morlion(Ghent University Hospital), Francisco Avila Cobos(Ghent University Hospital), Kimberly Verniers(Ghent University Hospital), Justine Nuytens(Ghent University Hospital), Eveline Vanden Eynde(Ghent University Hospital), Nurten Yigit(Ghent University Hospital), Jasper Anckaert(Ghent University Hospital), Anja Geerts(Ghent University Hospital), Pieter Hindryckx(Ghent University Hospital), Peggy Jacques(Ghent University Hospital), Guy Brusselle(Ghent University Hospital), Ken R. Bracke(Ghent University Hospital), Tania Maes(Ghent University Hospital), Thomas Malfait(Ghent University Hospital), Thierry Derveaux(Ghent University Hospital), Virginie Ninclaus(Ghent University Hospital), Caroline Van Cauwenbergh(Ghent University Hospital), Kristien Roelens(Ghent University Hospital), Ellen Roets(Ghent University Hospital), Dimitri Hemelsoet(Ghent University Hospital), Kelly Tilleman(Ghent University Hospital), Liève Brochez(Ghent University Hospital), Scott Kuersten(Illumina (United States)), Lukas M. Simon(The University of Texas Health Science Center at Houston), Sebastian Karg(Helmholtz Zentrum München), Alexandra Kautzky-Willers(Medical University of Vienna), Michael Leutner(Medical University of Vienna), Christa Nöhammer(Austrian Institute of Technology), Ondřej Slabý(Central European Institute of Technology), Roméo Willinge Prins(Amsterdam University Medical Centers), Jan Köster(Amsterdam University Medical Centers), Steve Lefever(Ghent University Hospital), Gary P. Schroth(Illumina (United States)), Jo Vandesompele(Ghent University Hospital), Pieter Mestdagh(Ghent University Hospital)

Cell Reports

December 1, 2020

10.1016/j.celrep.2020.108552

Cited by 93Open Access

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Abstract

Extracellular RNAs present in biofluids have emerged as potential biomarkers for disease. Where most studies focus on blood-derived fluids, other biofluids may be more informative. We present an atlas of messenger, circular, and small RNA transcriptomes of a comprehensive collection of 20 human biofluids. By means of synthetic spike-in controls, we compare RNA content across biofluids, revealing a 10,000-fold difference in concentration. The circular RNA fraction is increased in most biofluids compared to tissues. Each biofluid transcriptome is enriched for RNA molecules derived from specific tissues and cell types. Our atlas enables an informed selection of the most relevant biofluid to monitor particular diseases. To verify the biomarker potential in these biofluids, four validation cohorts representing a broad spectrum of diseases were profiled, revealing numerous differential RNAs between case and control subjects. Spike-normalized data are publicly available in the R2 web portal for further exploration.

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