SARS-CoV-2 evolution on a dynamic immune landscape

Bibliographic Details
Title: SARS-CoV-2 evolution on a dynamic immune landscape
Authors: Raharinirina, N. Alexia, Gubela, Nils, Börnigen, Daniela, Smith, Maureen Rebecca, Oh, Djin-Ye, Budt, Matthias, Mache, Christin, Schillings, Claudia, Fuchs, Stephan, Dürrwald, Ralf, Wolff, Thorsten, Hölzer, Martin, Paraskevopoulou, Sofia, von Kleist, Max
Source: Nature; March 2025, Vol. 639 Issue: 8053 p196-204, 9p
Abstract: Since the onset of the pandemic, many SARS-CoV-2 variants have emerged, exhibiting substantial evolution in the virus’ spike protein1, the main target of neutralizing antibodies2. A plausible hypothesis proposes that the virus evolves to evade antibody-mediated neutralization (vaccine- or infection-induced) to maximize its ability to infect an immunologically experienced population1,3. Because viral infection induces neutralizing antibodies, viral evolution may thus navigate on a dynamic immune landscape that is shaped by local infection history. Here we developed a comprehensive mechanistic model, incorporating deep mutational scanning data4,5, antibody pharmacokinetics and regional genomic surveillance data, to predict the variant-specific relative number of susceptible individuals over time. We show that this quantity precisely matched historical variant dynamics, predicted future variant dynamics and explained global differences in variant dynamics. Our work strongly suggests that the ongoing pandemic continues to shape variant-specific population immunity, which determines a variant’s ability to transmit, thus defining variant fitness. The model can be applied to any region by utilizing local genomic surveillance data, allows contextualizing risk assessment of variants and provides information for vaccine design.
Database: Supplemental Index
More Details
ISSN:00280836
14764687
DOI:10.1038/s41586-024-08477-8
Published in:Nature
Language:English