Innate lymphoid cells and COVID-19 severity in SARS-CoV-2 infection

Noah J Silverstein; Yetao Wang; Zachary Manickas-Hill; Claudia Carbone; Ann Dauphin; Brittany P Boribong; Maggie Loiselle; Jameson Davis; Maureen M Leonard; Leticia Kuri-Cervantes; MGH COVID-19 Collection & Processing Team; Nuala J Meyer; Michael R Betts; Jonathan Z Li; Bruce D Walker; Xu G Yu; Lael M Yonker; Jeremy Luban

doi:10.7554/eLife.74681

Innate lymphoid cells and COVID-19 severity in SARS-CoV-2 infection

Elife. 2022 Mar 11:11:e74681. doi: 10.7554/eLife.74681.

Authors

Noah J Silverstein^#^{1

2

3}, Yetao Wang^#^{1

3}, Zachary Manickas-Hill^{3

4}, Claudia Carbone¹, Ann Dauphin¹, Brittany P Boribong^{5

6

7}, Maggie Loiselle⁵, Jameson Davis⁵, Maureen M Leonard^{5

6

7}, Leticia Kuri-Cervantes^{8

9}; MGH COVID-19 Collection & Processing Team; Nuala J Meyer¹⁶, Michael R Betts^{8

9}, Jonathan Z Li^{3

17}, Bruce D Walker^{3

4

18

19}, Xu G Yu^{3

4

17}, Lael M Yonker^{5

6

7}, Jeremy Luban^{1

3

4

20

21}

Collaborators

MGH COVID-19 Collection & Processing Team:
Kendall Lavin-Parsons¹⁰, Blair Parry¹⁰, Brendan Lilley¹⁰, Carl Lodenstein¹⁰, Brenna McKaig¹⁰, Nicole Charland¹⁰, Hargun Khanna¹⁰, Justin Margolin¹⁰, Anna Gonye¹¹, Irena Gushterova¹¹, Tom Lasalle¹¹, Nihaarika Sharma¹¹, Brian C Russo¹², Maricarmen Rojas-Lopez¹², Moshe Sade-Feldman¹³, Kasidet Manakongtreecheep¹³, Jessica Tantivit¹³, Molly Fisher Thomas¹³, Betelihem A Abayneh¹⁴, Patrick Allen¹⁴, Diane Antille¹⁴, Katrina Armstrong¹⁴, Siobhan Boyce¹⁴, Joan Braley¹⁴, Karen Branch¹⁴, Katherine Broderick¹⁴, Julia Carney¹⁴, Andrew Chan¹⁴, Susan Davidson¹⁴, Michael Dougan¹⁴, David Drew¹⁴, Ashley Elliman¹⁴, Keith Flaherty¹⁴, Jeanne Flannery¹⁴, Pamela Forde¹⁴, Elise Gettings¹⁴, Amanda Griffin¹⁴, Sheila Grimmel¹⁴, Kathleen Grinke¹⁴, Kathryn Hall¹⁴, Meg Healy¹⁴, Deborah Henault¹⁴, Grace Holland¹⁴, Chantal Kayitesi¹⁴, Vlasta LaValle¹⁴, Yuting Lu¹⁴, Sarah Luthern¹⁴, Jordan Marchewka¹⁴, Brittani Martino¹⁴, Roseann McNamara¹⁴, Christian Nambu^{14

4}, Susan Nelson¹⁴, Marjorie Noone¹⁴, Christine Ommerborn¹⁴, Lois Chris Pacheco¹⁴, Nicole Phan¹⁴, Falisha A Porto¹⁴, Edward Ryan¹⁴, Kathleen Selleck¹⁴, Sue Slaughenhaupt¹⁴, Kimberly Smith Sheppard¹⁴, Elizabeth Suschana¹⁴, Vivine Wilson¹⁴, Galit Alter⁴, Alejandro Balazs⁴, Julia Bals⁴, Max Barbash⁴, Yannic Bartsch⁴, Julie Boucau⁴, Josh Chevalier⁴, Fatema Chowdhury⁴, Kevin Einkauf⁴, Jon Fallon⁴, Liz Fedirko⁴, Kelsey Finn⁴, Pilar Garcia-Broncano⁴, Ciputra Hartana⁴, Chenyang Jiang⁴, Paulina Kaplonek⁴, Marshall Karpell⁴, Evan C Lam⁴, Kristina Lefteri⁴, Xiaodong Lian⁴, Mathias Lichterfeld⁴, Daniel Lingwood⁴, Hang Liu⁴, Jinqing Liu⁴, Natasha Ly⁴, Ashlin Michell⁴, Ilan Millstrom⁴, Noah Miranda⁴, Claire O'Callaghan⁴, Matthew Osborn⁴, Shiv Pillai⁴, Yelizaveta Rassadkina⁴, Alexandra Reissis⁴, Francis Ruzicka⁴, Kyra Seiger⁴, Libera Sessa⁴, Christianne Sharr⁴, Sally Shin⁴, Nishant Singh⁴, Weiwei Sun⁴, Xiaoming Sun⁴, Hannah Ticheli⁴, Alicja Trocha-Piechocka⁴, Daniel Worrall⁴, Alex Zhu⁴, George Daley⁷, David Golan⁷, Howard Heller⁷, Arlene Sharpe⁷, Nikolaus Jilg¹⁵, Alex Rosenthal¹⁵, Colline Wong¹⁵

Affiliations

¹ Program in Molecular Medicine, University of Massachusetts Medical School, Worcester, United States.
² Medical Scientist Training Program, University of Massachusetts Medical School, Worcester, United States.
³ Massachusetts Consortium on Pathogen Readiness, Boston, United States.
⁴ Ragon Institute of MGH, MIT and Harvard, Cambridge, United States.
⁵ Massachusetts General Hospital, Mucosal Immunology and Biology Research Center, Boston, United States.
⁶ Massachusetts General Hospital, Department of Pediatrics, Boston, United States.
⁷ Harvard Medical School, Boston, United States.
⁸ Department of Microbiology, Perelman School of Medicine, University of Pennsylvania, Philadelphia, United States.
⁹ Institute for Immunology, Perelman School of Medicine, University of Pennsylvania, Philadelphia, United States.
¹⁰ Department of Emergency Medicine, Massachusetts General Hospital, Boston, United States.
¹¹ Massachusetts General Hospital Cancer Center, Boston, United States.
¹² Division of Infectious Diseases, Department of Medicine, Massachusetts General Hospital, Boston, United States.
¹³ Massachusetts General Hospital Center for Immunology and Inflammatory Diseases, Boston, United States.
¹⁴ Massachusetts General Hospital, Boston, United States.
¹⁵ Brigham and Women's Hospital, Boston, United States.
¹⁶ Division of Pulmonary and Critical Care Medicine, Department of Medicine, University of Pennsylvania Perelman School of Medicine, Philadelphia, United States.
¹⁷ Department of Medicine, Brigham and Women's Hospital, Boston, United States.
¹⁸ Howard Hughes Medical Institute, Chevy Chase, United States.
¹⁹ Department of Biology and Institute of Medical Engineering and Science, Massachusetts Institute of Technology, Cambridge, United States.
²⁰ Department of Biochemistry and Molecular Biotechnology, University of Massachusetts Medical School, Worcester, United States.
²¹ Broad Institute of Harvard and MIT, Cambridge, United States.

^# Contributed equally.

Abstract

Background: Risk of severe COVID-19 increases with age, is greater in males, and is associated with lymphopenia, but not with higher burden of SARS-CoV-2. It is unknown whether effects of age and sex on abundance of specific lymphoid subsets explain these correlations.

Methods: Multiple regression was used to determine the relationship between abundance of specific blood lymphoid cell types, age, sex, requirement for hospitalization, duration of hospitalization, and elevation of blood markers of systemic inflammation, in adults hospitalized for severe COVID-19 (n = 40), treated for COVID-19 as outpatients (n = 51), and in uninfected controls (n = 86), as well as in children with COVID-19 (n = 19), recovering from COVID-19 (n = 14), MIS-C (n = 11), recovering from MIS-C (n = 7), and pediatric controls (n = 17).

Results: This observational study found that the abundance of innate lymphoid cells (ILCs) decreases more than 7-fold over the human lifespan - T cell subsets decrease less than 2-fold - and is lower in males than in females. After accounting for effects of age and sex, ILCs, but not T cells, were lower in adults hospitalized with COVID-19, independent of lymphopenia. Among SARS-CoV-2-infected adults, the abundance of ILCs, but not of T cells, correlated inversely with odds and duration of hospitalization, and with severity of inflammation. ILCs were also uniquely decreased in pediatric COVID-19 and the numbers of these cells did not recover during follow-up. In contrast, children with MIS-C had depletion of both ILCs and T cells, and both cell types increased during follow-up. In both pediatric COVID-19 and MIS-C, ILC abundance correlated inversely with inflammation. Blood ILC mRNA and phenotype tracked closely with ILCs from lung. Importantly, blood ILCs produced amphiregulin, a protein implicated in disease tolerance and tissue homeostasis. Among controls, the percentage of ILCs that produced amphiregulin was higher in females than in males, and people hospitalized with COVID-19 had a lower percentage of ILCs that produced amphiregulin than did controls.

Conclusions: These results suggest that, by promoting disease tolerance, homeostatic ILCs decrease morbidity and mortality associated with SARS-CoV-2 infection, and that lower ILC abundance contributes to increased COVID-19 severity with age and in males.

Funding: This work was supported in part by the Massachusetts Consortium for Pathogen Readiness and NIH grants R37AI147868, R01AI148784, F30HD100110, 5K08HL143183.

Keywords: COVID-19; MIS-C; SARS-CoV-2; amphiregulin; disease tolerance; human; immunology; inflammation; innate lymphoid cells; medicine.

Publication types

Observational Study
Research Support, N.I.H., Extramural
Research Support, Non-U.S. Gov't

MeSH terms

Amphiregulin
COVID-19* / complications
Child
Female
Humans
Immunity, Innate
Inflammation
Lymphopenia*
Male
SARS-CoV-2
Systemic Inflammatory Response Syndrome
T-Lymphocyte Subsets

Substances

Amphiregulin

Supplementary concepts

pediatric multisystem inflammatory disease, COVID-19 related

Associated data