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Literature DB >> 33915568

A molecular single-cell lung atlas of lethal COVID-19.

Johannes C Melms^1,2, Jana Biermann^1,2, Huachao Huang^3,4,5, Yiping Wang^1,2, Ajay Nair⁵, Somnath Tagore⁶, Igor Katsyv⁷, André F Rendeiro^8,9, Amit Dipak Amin^1,2, Denis Schapiro^10,11, Chris J Frangieh^11,12, Adrienne M Luoma¹³, Aveline Filliol⁵, Yinshan Fang^3,4,5, Hiranmayi Ravichandran^9,14,15, Mariano G Clausi¹⁶, George A Alba¹⁷, Meri Rogava^1,2, Sean W Chen^1,2, Patricia Ho^1,2, Daniel T Montoro^18,19, Adam E Kornberg², Arnold S Han², Mathieu F Bakhoum²⁰, Niroshana Anandasabapathy^9,21,22, Mayte Suárez-Fariñas^23,24, Samuel F Bakhoum^25,26, Yaron Bram²⁷, Alain Borczuk^28,29, Xinzheng V Guo¹⁶, Jay H Lefkowitch⁷, Charles Marboe⁷, Stephen M Lagana⁷, Armando Del Portillo⁷, Emily J Tsai⁵, Emmanuel Zorn², Glen S Markowitz⁷, Robert F Schwabe^5,30, Robert E Schwartz²⁷, Olivier Elemento^8,9,15, Anjali Saqi⁷, Hanina Hibshoosh⁷, Jianwen Que^31,32,33,34, Benjamin Izar^35,36,37,38.

Abstract

Respiratory failure is the leading cause of death in patients with severe SARS-CoV-2 infection1,2, but the host response at the lung tissue level is poorly understood. Here we performed single-nucleus RNA sequencing of about 116,000 nuclei from the lungs of nineteen individuals who died of COVID-19 and underwent rapid autopsy and seven control individuals. Integrated analyses identified substantial alterations in cellular composition, transcriptional cell states, and cell-to-cell interactions, thereby providing insight into the biology of lethal COVID-19. The lungs from individuals with COVID-19 were highly inflamed, with dense infiltration of aberrantly activated monocyte-derived macrophages and alveolar macrophages, but had impaired T cell responses. Monocyte/macrophage-derived interleukin-1β and epithelial cell-derived interleukin-6 were unique features of SARS-CoV-2 infection compared to other viral and bacterial causes of pneumonia. Alveolar type 2 cells adopted an inflammation-associated transient progenitor cell state and failed to undergo full transition into alveolar type 1 cells, resulting in impaired lung regeneration. Furthermore, we identified expansion of recently described CTHRC1+ pathological fibroblasts3 contributing to rapidly ensuing pulmonary fibrosis in COVID-19. Inference of protein activity and ligand-receptor interactions identified putative drug targets to disrupt deleterious circuits. This atlas enables the dissection of lethal COVID-19, may inform our understanding of long-term complications of COVID-19 survivors, and provides an important resource for therapeutic development.

Entities: Chemical

Mesh：

Year: 2021 PMID： 33915568 PMCID： PMC8814825 DOI： 10.1038/s41586-021-03569-1

Source DB: PubMed Journal: Nature ISSN： 0028-0836 Impact factor: 49.962

48 in total

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80 in total

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