Alterations of multiple alveolar macrophage states in chronic obstructive pulmonary disease-Reference-Cited by-同舟云学术

Alterations of multiple alveolar macrophage states in chronic obstructive pulmonary disease

Published:2020-05-30 Issue: Volume: Page:
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Baßler Kevin^ORCID,Fujii Wataru^ORCID,Kapellos Theodore S.^ORCID,Horne Arik,Reiz Benedikt,Dudkin Erika^ORCID,Lücken Malte,Reusch Nico,Osei-Sarpong Collins,Warnat-Herresthal Stefanie,Wagner Allon^ORCID,Bonaguro Lorenzo^ORCID,Günther Patrick^ORCID,Pizarro Carmen,Schreiber Tina,Becker Matthias^ORCID,Händler Kristian^ORCID,Wohnhaas Christian T.,Baumgartner Florian,Köhler Meike,Theis Heidi,Kraut Michael,Wadsworth Marc H.,Hughes Travis K.,Ferreira Humberto J. G.,Schulte-Schrepping Jonas^ORCID,Hinkley Emily,Kaltheuner Ines H.,Geyer Matthias^ORCID,Thiele Christoph,Shalek Alex K.^ORCID,Feißt Andreas,Thomas Daniel,Dickten Henning^ORCID,Beyer Marc^ORCID,Baum Patrick,Yosef Nir,Aschenbrenner Anna C.^ORCID,Ulas Thomas^ORCID,Hasenauer Jan^ORCID,Theis Fabian J.^ORCID,Skowasch Dirk,Schultze Joachim L.^ORCID

Abstract

AbstractDespite the epidemics of chronic obstructive pulmonary disease (COPD), the cellular and molecular mechanisms of this disease are far from being understood. Here, we characterize and classify the cellular composition within the alveolar space and peripheral blood of COPD patients and control donors using a clinically applicable single-cell RNA-seq technology corroborated by advanced computational approaches for: machine learning-based cell-type classification, identification of differentially expressed genes, prediction of metabolic changes, and modeling of cellular trajectories within a patient cohort. These high-resolution approaches revealed: massive transcriptional plasticity of macrophages in the alveolar space with increased levels of invading and proliferating cells, loss of MHC expression, reduced cellular motility, altered lipid metabolism, and a metabolic shift reminiscent of mitochondrial dysfunction in COPD patients. Collectively, single-cell omics of multi-tissue samples was used to build the first cellular and molecular framework for COPD pathophysiology as a prerequisite to develop molecular biomarkers and causal therapies against this deadly disease.

Publisher

Cold Spring Harbor Laboratory

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