System-wide transcriptome damage and tissue identity loss in COVID-19 patients.

IF: 16.988

Cited by: 14

Abstract

The molecular mechanisms underlying the clinical manifestations of coronavirus disease 2019 (COVID-19), and what distinguishes them from common seasonal influenza virus and other lung injury states such as acute respiratory distress syndrome, remain poorly understood. To address these challenges, we combine transcriptional profiling of 646 clinical nasopharyngeal swabs and 39 patient autopsy tissues to define body-wide transcriptome changes in response to COVID-19. We then match these data with spatial protein and expression profiling across 357 tissue sections from 16 representative patient lung samples and identify tissue-compartment-specific damage wrought by severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) infection, evident as a function of varying viral loads during the clinical course of infection and tissue-type-specific expression states. Overall, our findings reveal a systemic disruption of canonical cellular and transcriptional pathways across all tissues, which can inform subsequent studies to combat the mortality of COVID-19 and to better understand the molecular dynamics of lethal SARS-CoV-2 and other respiratory infections.

Keywords

Spatial Transcriptomics

COVID-19

NGS

RNA-seq

SARS-CoV-2

coronavirus

coronavirus disease 2019

evere acute respiratory syndrome coronavirus 2

host response

next-generation sequencing

spatial transcriptomics

MeSH terms

Adult

Aged

Aged, 80 and over

COVID-19

Case-Control Studies

Cohort Studies

Female

Gene Expression Regulation

Humans

Influenza, Human

Lung

Male

Middle Aged

Orthomyxoviridae

RNA-Seq

Respiratory Distress Syndrome

SARS-CoV-2

Transcriptome

Viral Load

Authors

Park, Jiwoon

Foox, Jonathan

Hether, Tyler

Danko, David C

Warren, Sarah

Kim, Youngmi

Reeves, Jason

Butler, Daniel J

Mozsary, Christopher

Rosiene, Joel

Shaiber, Alon

Afshin, Evan E

MacKay, Matthew

Rendeiro, André F

Bram, Yaron

Chandar, Vasuretha

Geiger, Heather

Craney, Arryn

Velu, Priya

Melnick, Ari M

Hajirasouliha, Iman

Beheshti, Afshin

Taylor, Deanne

Saravia-Butler, Amanda

Singh, Urminder

Wurtele, Eve Syrkin

Schisler, Jonathan

Fennessey, Samantha

Corvelo, André

Zody, Michael C

Germer, Soren

Salvatore, Steven

Levy, Shawn

Wu, Shixiu

Tatonetti, Nicholas P

Shapira, Sagi

Salvatore, Mirella

Westblade, Lars F

Cushing, Melissa

Rennert, Hanna

Kriegel, Alison J

Elemento, Olivier

Imielinski, Marcin

Rice, Charles M

Borczuk, Alain C

Meydan, Cem

Schwartz, Robert E

Mason, Christopher E

Recommend literature

1. Systemic Tissue and Cellular Disruption from SARS-CoV-2 Infection revealed in COVID-19 Autopsies and Spatial Omics Tissue Maps.

2. Shotgun transcriptome, spatial omics, and isothermal profiling of SARS-CoV-2 infection reveals unique host responses, viral diversification, and drug interactions.

3. The spatial landscape of lung pathology during COVID-19 progression.

4. Spatial mapping of SARS-CoV-2 and H1N1 lung injury identifies differential transcriptional signatures.

5. COVID-19 tissue atlases reveal SARS-CoV-2 pathology and cellular targets.

Similar data

1. A diagnostic host response biosignature for COVID-19 from RNA profiling of nasal swabs and blood

2. Innate immune repsonses to TREM-1 activation

3. Hydroxychloroquine inhibits trained immunity

4. Single-Cell Transcriptomic Analysis of Human Lung Reveals Complex Multicellular Changes During Pulmonary Fibrosis

5. Dissecting cell composition and cell-cell interaction network of human disease heart tissue by single-cell sequencing