1. Single-nucleus lung transcriptomics and inflammatory responses in lethal COVID-19 reveal potential drugs in advanced-stage clinical trials
- Author
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Estefanía Abarca, Antonella Vera-Gupi, Patricia Guevara-Ramírez, Santiago Guerrero, Andy Pérez-Villa, Alejandro Cabrera-Andrade, Verónica Yumiceba, Andrea Abad-Sojos, Gabriela Echeverría-Garcés, Ariana León-Sosa, Lourdes Puig San Andrés, Ana María Gómez-Jaramillo, Isaac Armendáriz-Castillo, Luis Fuenmayor-González, Katherine Simbaña-Rivera, Fernanda Arias-Erazo, Jhommara Bautista, Jennyfer M. García-Cárdenas, Andrea V. Jácome, Doménica Cevallos-Robalino, Andrea Morillo, Álvaro A. Pérez-Meza, Esteban Ortiz-Prado, Karol Nieto-Jaramillo, María José Ramos-Medina, Ángela León Cáceres, Nikolaos C Kyriakidis, and Andrés López-Cortés
- Subjects
Clinical trial ,Transcriptome ,Lung ,medicine.anatomical_structure ,Text mining ,Coronavirus disease 2019 (COVID-19) ,business.industry ,Advanced stage ,Medicine ,business ,Bioinformatics ,Nucleus - Abstract
There is pressing urgency to identify drugs that allow treating COVID-19 patients effectively. Respiratory failure is the leading cause of death in patients with severe COVID-19, and the host inflammatory response at the lungs remains poorly understood. Therefore, we retrieved data from postmortem lungs from COVID-19 patients and performed in-depth in silico analyses of single-nucleus RNA sequencing data, inflammatory protein interactome network, functional enrichment, and shortest pathways to cancer hallmark phenotypes to reveal potential therapeutic targets and drugs in advanced-stage COVID-19 clinical trials. Herein, we analyzed transcriptomics data of 719 inflammatory response genes across 19 cell types (116,313 nuclei) from lung autopsies. The functional enrichment analysis of the 233 significantly expressed genes showed that the most relevant biological annotations were: inflammatory response, innate immune response, cytokine production, interferon production, macrophage activation, thymic stromal lymphopoietin, blood coagulation, IL-1 and megakaryocytes in obesity, NLRP3 inflammasome complex, and the TLR, JAK-STAT, NF-κB, TNF, oncostatin M, AGE-RAGE signaling pathways. Subsequently, we identified 34 essential inflammatory proteins with both high-confidence protein interactions and shortest pathways to inflammation, cell death, glycolysis, and angiogenesis. Lastly, we propose five small molecules involved in advanced-stage COVID-19 clinical trials: baricitinib, pacritinib, and ruxolitinib are tyrosine-protein kinase JAK2 inhibitors, losmapimod is a MAP kinase p38 alpha inhibitor, and eritoran is a TLR4/MD-2 antagonist. After being thoroughly analyzed in COVID-19 clinical trials, these drugs can be considered for treating severe COVID-19 patients.
- Published
- 2021
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