An integrated transcriptomic cell atlas of human endoderm-derived organoids

Quan Xu; Lennard Halle; Soroor Hediyeh-zadeh; Merel Kuijs; Rya Riedweg; Umut Kilik; Timothy Recaldin; Qianhui Yu; Isabell Rall; Tristan Frum; Lukas Adam; Shrey Parikh; Raphael Kfuri‐Rubens; Manuel Gander; Dominik Klein; Fabiola Curion; Zhisong He; Jonas Simon Fleck; Koen C. Oost; Maurice Kahnwald; Silvia Barbiero; О.В. Митрофанова; Grzegorz Jerzy Maciag; Kim B. Jensen; Matthias P. Lütolf; Prisca Liberali; Jason R. Spence; Nikolche Gjorevski; Joep Beumer; Barbara Treutlein; Fabian J. Theis; J. Gray Camp

doi:10.1038/s41588-025-02182-6

An integrated transcriptomic cell atlas of human endoderm-derived organoids

Quan Xu(Roche (Switzerland)), Lennard Halle(Helmholtz Zentrum München), Soroor Hediyeh-zadeh(Helmholtz Zentrum München), Merel Kuijs(Helmholtz Zentrum München), Rya Riedweg(Roche (Switzerland)), Umut Kilik(Roche (Switzerland)), Timothy Recaldin(Roche (Switzerland)), Qianhui Yu(Roche (Switzerland)), Isabell Rall(Roche (Switzerland)), Tristan Frum(University of Michigan), Lukas Adam(Roche (Switzerland)), Shrey Parikh(Helmholtz Zentrum München), Raphael Kfuri‐Rubens(TUM Klinikum), Manuel Gander(Helmholtz Zentrum München), Dominik Klein(Helmholtz Zentrum München), Fabiola Curion(Helmholtz Zentrum München), Zhisong He(ETH Zurich), Jonas Simon Fleck(Roche (Switzerland)), Koen C. Oost(Friedrich Miescher Institute), Maurice Kahnwald(Friedrich Miescher Institute), Silvia Barbiero(Friedrich Miescher Institute), О.В. Митрофанова(Roche (Switzerland)), Grzegorz Jerzy Maciag(University of Copenhagen), Kim B. Jensen(University of Copenhagen), Matthias P. Lütolf(Roche (Switzerland)), Prisca Liberali(University of Basel), Jason R. Spence(University of Michigan), Nikolche Gjorevski(Roche (Switzerland)), Joep Beumer(Roche (Switzerland)), Barbara Treutlein(ETH Zurich), Fabian J. Theis(Helmholtz Zentrum München), J. Gray Camp(Roche (Switzerland))

Nature Genetics

May 1, 2025

10.1038/s41588-025-02182-6

Cited by 26Open Access

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Abstract

Human pluripotent stem cells and tissue-resident fetal and adult stem cells can generate epithelial tissues of endodermal origin in vitro that recapitulate aspects of developing and adult human physiology. Here, we integrate single-cell transcriptomes from 218 samples covering organoids and other models of diverse endoderm-derived tissues to establish an initial version of a human endoderm-derived organoid cell atlas. The integration includes nearly one million cells across diverse conditions, data sources and protocols. We compare cell types and states between organoid models and harmonize cell annotations through mapping to primary tissue counterparts. Focusing on the intestine and lung, we provide examples of mapping data from new protocols and show how the atlas can be used as a diverse cohort to assess perturbations and disease models. The human endoderm-derived organoid cell atlas makes diverse datasets centrally available and will be valuable to assess fidelity, characterize perturbed and diseased states, and streamline protocol development.

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