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The spatial transcriptomic landscape of the healing mouse intestine following damage

Author

Listed:
  • Sara M. Parigi

    (Karolinska Institute and University Hospital
    Center of Molecular Medicine)

  • Ludvig Larsson

    (Science for Life Laboratory, Department of Gene Technology, KTH Royal Institute of Technology)

  • Srustidhar Das

    (Karolinska Institute and University Hospital
    Center of Molecular Medicine)

  • Ricardo O. Ramirez Flores

    (Heidelberg University, Faculty of Medicine, and Heidelberg University Hospital, Institute for Computational Biomedicine, Bioquant)

  • Annika Frede

    (Karolinska Institute and University Hospital
    Center of Molecular Medicine)

  • Kumar P. Tripathi

    (Karolinska Institute and University Hospital
    Center of Molecular Medicine)

  • Oscar E. Diaz

    (Karolinska Institute and University Hospital
    Center of Molecular Medicine)

  • Katja Selin

    (Karolinska Institute and University Hospital
    Center of Molecular Medicine)

  • Rodrigo A. Morales

    (Karolinska Institute and University Hospital
    Center of Molecular Medicine)

  • Xinxin Luo

    (Karolinska Institute and University Hospital
    Center of Molecular Medicine)

  • Gustavo Monasterio

    (Karolinska Institute and University Hospital
    Center of Molecular Medicine)

  • Camilla Engblom

    (Department of Cell and Molecular Biology, Karolinska Institute)

  • Nicola Gagliani

    (Karolinska Institute and University Hospital
    Center of Molecular Medicine
    University Medical Center Hamburg-Eppendorf)

  • Julio Saez-Rodriguez

    (Heidelberg University, Faculty of Medicine, and Heidelberg University Hospital, Institute for Computational Biomedicine, Bioquant)

  • Joakim Lundeberg

    (Science for Life Laboratory, Department of Gene Technology, KTH Royal Institute of Technology)

  • Eduardo J. Villablanca

    (Karolinska Institute and University Hospital
    Center of Molecular Medicine)

Abstract

The intestinal barrier is composed of a complex cell network defining highly compartmentalized and specialized structures. Here, we use spatial transcriptomics to define how the transcriptomic landscape is spatially organized in the steady state and healing murine colon. At steady state conditions, we demonstrate a previously unappreciated molecular regionalization of the colon, which dramatically changes during mucosal healing. Here, we identified spatially-organized transcriptional programs defining compartmentalized mucosal healing, and regions with dominant wired pathways. Furthermore, we showed that decreased p53 activation defined areas with increased presence of proliferating epithelial stem cells. Finally, we mapped transcriptomics modules associated with human diseases demonstrating the translational potential of our dataset. Overall, we provide a publicly available resource defining principles of transcriptomic regionalization of the colon during mucosal healing and a framework to develop and progress further hypotheses.

Suggested Citation

  • Sara M. Parigi & Ludvig Larsson & Srustidhar Das & Ricardo O. Ramirez Flores & Annika Frede & Kumar P. Tripathi & Oscar E. Diaz & Katja Selin & Rodrigo A. Morales & Xinxin Luo & Gustavo Monasterio & C, 2022. "The spatial transcriptomic landscape of the healing mouse intestine following damage," Nature Communications, Nature, vol. 13(1), pages 1-16, December.
    • Handle: RePEc:nat:natcom:v:13:y:2022:i:1:d:10.1038_s41467-022-28497-0
    DOI: 10.1038/s41467-022-28497-0
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    References listed on IDEAS

    as
    1. Paulo Czarnewski & Sara M. Parigi & Chiara Sorini & Oscar E. Diaz & Srustidhar Das & Nicola Gagliani & Eduardo J. Villablanca, 2019. "Conserved transcriptomic profile between mouse and human colitis allows unsupervised patient stratification," Nature Communications, Nature, vol. 10(1), pages 1-11, December.
    2. Michael Schubert & Bertram Klinger & Martina Klünemann & Anja Sieber & Florian Uhlitz & Sascha Sauer & Mathew J. Garnett & Nils Blüthgen & Julio Saez-Rodriguez, 2018. "Perturbation-response genes reveal signaling footprints in cancer gene expression," Nature Communications, Nature, vol. 9(1), pages 1-11, December.
    3. Ilya Lukonin & Denise Serra & Ludivine Challet Meylan & Katrin Volkmann & Janine Baaten & Rui Zhao & Shelly Meeusen & Karyn Colman & Francisca Maurer & Michael B. Stadler & Jeremy Jenkins & Prisca Lib, 2020. "Phenotypic landscape of intestinal organoid regeneration," Nature, Nature, vol. 586(7828), pages 275-280, October.
    4. Arshad Ayyaz & Sandeep Kumar & Bruno Sangiorgi & Bibaswan Ghoshal & Jessica Gosio & Shaida Ouladan & Mardi Fink & Seda Barutcu & Daniel Trcka & Jess Shen & Kin Chan & Jeffrey L. Wrana & Alex Gregorief, 2019. "Single-cell transcriptomes of the regenerating intestine reveal a revival stem cell," Nature, Nature, vol. 569(7754), pages 121-125, May.
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    Cited by:

    1. Egle Kvedaraite & Magda Lourda & Natalia Mouratidou & Tim Düking & Avinash Padhi & Kirsten Moll & Paulo Czarnewski & Indranil Sinha & Ioanna Xagoraris & Efthymia Kokkinou & Anastasios Damdimopoulos & , 2024. "Intestinal stroma guides monocyte differentiation to macrophages through GM-CSF," Nature Communications, Nature, vol. 15(1), pages 1-16, December.
    2. Jingyang Qian & Jie Liao & Ziqi Liu & Ying Chi & Yin Fang & Yanrong Zheng & Xin Shao & Bingqi Liu & Yongjin Cui & Wenbo Guo & Yining Hu & Hudong Bao & Penghui Yang & Qian Chen & Mingxiao Li & Bing Zha, 2023. "Reconstruction of the cell pseudo-space from single-cell RNA sequencing data with scSpace," Nature Communications, Nature, vol. 14(1), pages 1-18, December.

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