1. Shared neutrophil and T cell dysfunction is accompanied by a distinct interferon signature during severe febrile illnesses in children
- Author
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Harsita Patel, Michael J. Carter, Heather Jackson, Oliver Powell, Matthew Fish, Manuela Terranova-Barberio, Filomena Spada, Nedyalko Petrov, Paul Wellman, Sarah Darnell, Sobia Mustafa, Katrina Todd, Cynthia Bishop, Jonathan M. Cohen, Julia Kenny, Sarah van den Berg, Thomas Sun, Francesca Davis, Aislinn Jennings, Emma Timms, Jessica Thomas, Maggie Nyirendra, Samuel Nichols, Leire Estamiana Elorieta, Giselle D’Souza, Victoria Wright, Tisham De, Dominic Habgood-Coote, Padmanabhan Ramnarayan, Pierre Tissières, Elizabeth Whittaker, Jethro Herberg, Aubrey Cunnington, Myrsini Kaforou, Richard Ellis, Michael H. Malim, Shane M. Tibby, Manu Shankar-Hari, Michael Levin, and On behalf of the DIAMONDS Consortium
- Subjects
Science - Abstract
Abstract Severe febrile illnesses in children encompass life-threatening organ dysfunction caused by diverse pathogens and other severe inflammatory syndromes. A comparative approach to these illnesses may identify shared and distinct features of host immune dysfunction amenable to immunomodulation. Here, using immunophenotyping with mass cytometry and cell stimulation experiments, we illustrate trajectories of immune dysfunction in 74 children with multi-system inflammatory syndrome in children (MIS-C) associated with SARS-CoV-2, 30 with bacterial infection, 16 with viral infection, 8 with Kawasaki disease, and 42 controls. We explore these findings in a secondary cohort of 500 children with these illnesses and 134 controls. We show that neutrophil activation and apoptosis are prominent in multi-system inflammatory syndrome, and that this is partially shared with bacterial infection. We show that memory T cells from patients with multi-system inflammatory syndrome and bacterial infection are exhausted. In contrast, we show viral infection to be characterized by a distinct signature of decreased interferon signaling and lower interferon receptor gene expression. Improved understanding of immune dysfunction may improve approaches to immunomodulator therapy in severe febrile illnesses in children.
- Published
- 2024
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