Nature Communications (Mar 2022)

Divergent trajectories of antiviral memory after SARS-CoV-2 infection

  • Adriana Tomic,
  • Donal T. Skelly,
  • Ane Ogbe,
  • Daniel O’Connor,
  • Matthew Pace,
  • Emily Adland,
  • Frances Alexander,
  • Mohammad Ali,
  • Kirk Allott,
  • M. Azim Ansari,
  • Sandra Belij-Rammerstorfer,
  • Sagida Bibi,
  • Luke Blackwell,
  • Anthony Brown,
  • Helen Brown,
  • Breeze Cavell,
  • Elizabeth A. Clutterbuck,
  • Thushan de Silva,
  • David Eyre,
  • Sheila Lumley,
  • Amy Flaxman,
  • James Grist,
  • Carl-Philipp Hackstein,
  • Rachel Halkerston,
  • Adam C. Harding,
  • Jennifer Hill,
  • Tim James,
  • Cecilia Jay,
  • Síle A. Johnson,
  • Barbara Kronsteiner,
  • Yolanda Lie,
  • Aline Linder,
  • Stephanie Longet,
  • Spyridoula Marinou,
  • Philippa C. Matthews,
  • Jack Mellors,
  • Christos Petropoulos,
  • Patpong Rongkard,
  • Cynthia Sedik,
  • Laura Silva-Reyes,
  • Holly Smith,
  • Lisa Stockdale,
  • Stephen Taylor,
  • Stephen Thomas,
  • Timothy Tipoe,
  • Lance Turtle,
  • Vinicius Adriano Vieira,
  • Terri Wrin,
  • OPTIC Clinical Group,
  • PITCH Study Group,
  • C-MORE Group,
  • Andrew J. Pollard,
  • Teresa Lambe,
  • Chris P. Conlon,
  • Katie Jeffery,
  • Simon Travis,
  • Philip Goulder,
  • John Frater,
  • Alex J. Mentzer,
  • Lizzie Stafford,
  • Miles W. Carroll,
  • William S. James,
  • Paul Klenerman,
  • Eleanor Barnes,
  • Christina Dold,
  • Susanna J. Dunachie

DOI
https://doi.org/10.1038/s41467-022-28898-1
Journal volume & issue
Vol. 13, no. 1
pp. 1 – 20

Abstract

Read online

The engagement of immunological memory is a key component to the protective anti-SARS-CoV-2 B and T cell responses. Here the authors assess the B and T cells of a cohort of UK healthcare workers in response to infection and longitudinally track the compartment showing distinct trajectories following early priming.