The local and systemic response to SARS-CoV-2 infection in children and adults
Author:
Yoshida MasahiroORCID, Worlock Kaylee B.ORCID, Huang Ni, Lindeboom Rik G.H., Butler Colin R.ORCID, Kumasaka Natsuhiko, Conde Cecilia Dominguez, Mamanova LiraORCID, Bolt Liam, Richardson Laura, Polanski Krzysztof, Madissoon Elo, Barnes Josephine L.ORCID, Allen-Hyttinen JessicaORCID, Kilich ElizORCID, Jones Brendan C.ORCID, de Wilton AngusORCID, Wilbrey-Clark Anna, Sungnak WaradonORCID, Pett J. PatrickORCID, Prigmore Elena, Yung HenryORCID, Mehta PujaORCID, Saleh AarashORCID, Saigal Anita, Chu VivianORCID, Cohen Jonathan M., Cane Clare, Iordanidou AikateriniORCID, Shibuya SoichiORCID, Reuschl Ann-KathrinORCID, Argento A. ChristineORCID, Wunderink Richard G.ORCID, Smith Sean B.ORCID, Poor Taylor A.ORCID, Gao Catherine A.ORCID, Dematte Jane E.ORCID, Reynolds Gary, Haniffa MuzlifahORCID, Bowyer Georgina S.ORCID, Coates Matthew, Clatworthy Menna R.ORCID, Calero-Nieto Fernando J.ORCID, Göttgens BertholdORCID, O’Callaghan Christopher, Sebire Neil J.ORCID, Jolly ClareORCID, de Coppi PaoloORCID, Smith Claire M.ORCID, Misharin Alexander V.ORCID, Janes Sam M.ORCID, Teichmann Sarah A.ORCID, Nikolić Marko Z.ORCID, Meyer Kerstin B.ORCID,
Abstract
AbstractWhile a substantial proportion of adults infected with SARS-CoV-2 progress to develop severe disease, children rarely manifest respiratory complications. Therefore, understanding differences in the local and systemic response to SARS-CoV-2 infection between children and adults may provide important clues about the pathogenesis of SARS-CoV-2 infection. To address this, we first generated a healthy reference multi-omics single cell data set from children (n=30) in whom we have profiled triple matched samples: nasal and tracheal brushings and PBMCs, where we track the developmental changes for 42 airway and 31 blood cell populations from infancy, through childhood to adolescence. This has revealed the presence of naive B and T lymphocytes in neonates and infants with a unique gene expression signature bearing hallmarks of innate immunity. We then contrast the healthy reference with equivalent data from severe paediatric and adult COVID-19 patients (total n=27), from the same three types of samples: upper and lower airways and blood. We found striking differences: children with COVID-19 as opposed to adults had a higher proportion of innate lymphoid and non-clonally expanded naive T cells in peripheral blood, and a limited interferon-response signature. In the airway epithelium, we found the highest viral load in goblet and ciliated cells and describe a novel inflammatory epithelial cell population. These cells represent a transitional regenerative state between secretory and ciliated cells; they were found in healthy children and were enriched in paediatric and adult COVID-19 patients. Epithelial cells display an antiviral and neutrophil-recruiting gene signature that is weaker in severe paediatricversusadult COVID-19. Our matched blood and airway samples allowed us to study the spatial dynamics of infection. Lastly, we provide a user-friendly interface for this data1as a highly granular reference for the study of immune responses in airways and blood in children.
Publisher
Cold Spring Harbor Laboratory
Reference95 articles.
1. COVID-19 Cell Atlas. https://www.covid19cellatlas.org/. 2. World Health Organization. Report of the WHO-China Joint Mission on Coronavirus Disease 2019 (COVID-19). https://www.who.int/docs/default-source/coronaviruse/who-china-joint-mission-on-covid-19-final-report.pdf (2020, February 28). 3. Swann, O. V. et al. Clinical characteristics of children and young people admitted to hospital with covid-19 in United Kingdom: prospective multicentre observational cohort study. BMJ 370, m3249 (2020). 4. Characteristics of pediatric SARS-CoV-2 infection and potential evidence for persistent fecal viral shedding 5. SARS-CoV-2 Infection in Children
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