A spatially resolved atlas of the human lung characterizes a gland-associated immune niche

Elo Madissoon; Amanda J. Oliver; Vitalii Kleshchevnikov; Anna Wilbrey-Clark; Krzysztof Polański; Nathan Richoz; Ana Elisa Ribeiro Orsi; Lira Mamanova; Liam Bolt; Rasa Elmentaite; J. Patrick Pett; Ni Huang; Chuan Xu; Peng He; Monika Dabrowska; Sophie Pritchard; Elizabeth Tuck; Elena Prigmore; Shani Perera; Andrew Knights; Ágnes Oszlánczi; Adam Hunter; Sara F. Vieira; Minal Patel; Rik G.H. Lindeboom; Lia S. Campos; Kazuhiko Matsuo; Takashi Nakayama; Masahiro Yoshida; Kaylee B. Worlock; Marko Nikolić; Nikitas Georgakopoulos; Krishnaa T. Mahbubani; Kourosh Saeb‐Parsy; Omer Ali Bayraktar; Menna R. Clatworthy; Oliver Stegle; Natsuhiko Kumasaka; Sarah A. Teichmann; Kerstin B. Meyer

doi:10.1038/s41588-022-01243-4

A spatially resolved atlas of the human lung characterizes a gland-associated immune niche

Elo Madissoon(European Bioinformatics Institute), Amanda J. Oliver(Wellcome Sanger Institute), Vitalii Kleshchevnikov(Wellcome Sanger Institute), Anna Wilbrey-Clark(Wellcome Sanger Institute), Krzysztof Polański(Wellcome Sanger Institute), Nathan Richoz(MRC Laboratory of Molecular Biology), Ana Elisa Ribeiro Orsi(Universidade de São Paulo), Lira Mamanova(Wellcome Sanger Institute), Liam Bolt(Wellcome Sanger Institute), Rasa Elmentaite(Wellcome Sanger Institute), J. Patrick Pett(Wellcome Sanger Institute), Ni Huang(Wellcome Sanger Institute), Chuan Xu(Wellcome Sanger Institute), Peng He(European Bioinformatics Institute), Monika Dabrowska(Wellcome Sanger Institute), Sophie Pritchard(Wellcome Sanger Institute), Elizabeth Tuck(Wellcome Sanger Institute), Elena Prigmore(Wellcome Sanger Institute), Shani Perera(Wellcome Sanger Institute), Andrew Knights(Wellcome Sanger Institute), Ágnes Oszlánczi(Wellcome Sanger Institute), Adam Hunter(Wellcome Sanger Institute), Sara F. Vieira(Wellcome Sanger Institute), Minal Patel(Wellcome Sanger Institute), Rik G.H. Lindeboom(Wellcome Sanger Institute), Lia S. Campos(Wellcome Sanger Institute), Kazuhiko Matsuo(Kindai University), Takashi Nakayama(Kindai University), Masahiro Yoshida(University College London Hospitals NHS Foundation Trust), Kaylee B. Worlock(University College London Hospitals NHS Foundation Trust), Marko Nikolić(University College London Hospitals NHS Foundation Trust), Nikitas Georgakopoulos(University of Cambridge), Krishnaa T. Mahbubani(University of Cambridge), Kourosh Saeb‐Parsy(University of Cambridge), Omer Ali Bayraktar(Wellcome Sanger Institute), Menna R. Clatworthy(MRC Laboratory of Molecular Biology), Oliver Stegle(German Cancer Research Center), Natsuhiko Kumasaka(Wellcome Sanger Institute), Sarah A. Teichmann(University of Cambridge), Kerstin B. Meyer(Wellcome Sanger Institute)

Nature Genetics

December 21, 2022

10.1038/s41588-022-01243-4

Cited by 217Open Access

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Abstract

Single-cell transcriptomics has allowed unprecedented resolution of cell types/states in the human lung, but their spatial context is less well defined. To (re)define tissue architecture of lung and airways, we profiled five proximal-to-distal locations of healthy human lungs in depth using multi-omic single cell/nuclei and spatial transcriptomics (queryable at lungcellatlas.org ). Using computational data integration and analysis, we extend beyond the suspension cell paradigm and discover macro and micro-anatomical tissue compartments including previously unannotated cell types in the epithelial, vascular, stromal and nerve bundle micro-environments. We identify and implicate peribronchial fibroblasts in lung disease. Importantly, we discover and validate a survival niche for IgA plasma cells in the airway submucosal glands (SMG). We show that gland epithelial cells recruit B cells and IgA plasma cells, and promote longevity and antibody secretion locally through expression of CCL28, APRIL and IL-6. This new 'gland-associated immune niche' has implications for respiratory health.

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