Identification of driver genes for critical forms of COVID-19 in a deeply phenotyped young patient cohort

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Carapito, Raphael | Li, Richard | Helms, Julie | Carapito, Christine | Gujja, Sharvari | Rolli, Véronique | Guimaraes, Raony | Malagon-Lopez, Jose | Spinnhirny, Perrine | Lederle, Alexandre | Mohseninia, Razieh | Hirschler, Aurélie | Muller, Leslie | Bastard, Paul | Gervais, Adrian | Zhang, Qian | Danion, François | Ruch, Yvon | Schenck, Maleka | Collange, Olivier | Chamaraux-Tran, Thiên-Nga | Molitor, Anne | Pichot, Angélique | Bernard, Alice | Tahar, Ouria | Bibi-Triki, Sabrina | Wu, Haiguo | Paul, Nicodème | Mayeur, Sylvain | Larnicol, Annabel | Laumond, Géraldine | Frappier, Julia | Schmidt, Sylvie | Hanauer, Antoine | Macquin, Cécile | Stemmelen, Tristan | Simons, Michael | Mariette, Xavier | Hermine, Olivier | Fafi-Kremer, Samira | Goichot, Bernard | Drenou, Bernard | Kuteifan, Khaldoun | Pottecher, Julien | Mertes, Paul-Michel | Kailasan, Shweta | Aman, M. Javad | Pin, Elisa | Nilsson, Peter | Thomas, Anne | Viari, Alain | Sanlaville, Damien | Schneider, Francis | Sibilia, Jean | Tharaux, Pierre-Louis | Casanova, Jean-Laurent | Hansmann, Yves | Lidar, Daniel | Radosavljevic, Mirjana | Gulcher, Jeffrey | Meziani, Ferhat | Moog, Christiane | Chittenden, Thomas | Bahram, Seiamak

Edité par CCSD ; American Association for the Advancement of Science (AAAS) -

International audience. The etiopathogenesis of critical COVID-19 remains unknown. Indeed given major confounding factors (age and comorbidities), true drivers of this condition have remained elusive. Here, we employ an unprecedented multi-omics analysis, combined with artificial intelligence, in a young patient cohort where major comorbidities have been excluded at the onset. Here, we established a three-tier cohort of individuals younger than 50 years without major comorbidities. These included 47 “critical” (in the ICU under mechanical ventilation) and 25 “non-critical” (in a non-critical care ward) COVID-19 patients as well as 22 healthy individuals. The analyses included whole-genome sequencing, whole-blood RNA sequencing, plasma and blood mononuclear cells proteomics, cytokine profiling and high-throughput immunophenotyping. An ensemble of machine learning, deep learning, quantum annealing and structural causal modeling led to key findings. Critical patients were characterized by exacerbated inflammation, perturbed lymphoid/myeloid compartments, coagulation and viral cell biology. Within a unique gene signature that differentiated critical from non-critical patients, several driver genes promoted critical COVID-19 among which the upregulated metalloprotease ADAM9 was key. This gene signature was supported in a second independent cohort of 81 critical and 73 recovered COVID-19 patients, as were ADAM9 transcripts, soluble form and proteolytic activity. Ex vivo ADAM9 inhibition affected SARS-CoV-2 uptake and replication in human lung epithelial cells. In conclusion, within a young, otherwise healthy, COVID-19 cohort, we provide the landscape of biological perturbations in vivo where a unique gene signature differentiated critical from non-critical patients. The key driver, ADAM9, interfered with SARS-CoV-2 biology. A repositioning strategy for anti-ADAM9 therapeutic is feasible.

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