Impact of circulating SARS-CoV-2 variants on mRNA vaccine-induced immunity.
Carolina LucasChantal B F VogelsInci YildirimJessica M RothmanPeiwen LuValter MonteiroJeff R GehlhausenMelissa CampbellJulio SilvaAlexandra TabachnikovaMario A Peña-HernandezM Catherine MuenkerMallery I BrebanJoseph R FauverSubhasis MohantyJiefang Huangnull nullAlbert C ShawAlbert I KoSaad B OmerNathan D GrubaughAkiko IwasakPublished in: Nature (2021)
The emergence of SARS-CoV-2 variants with mutations in major neutralizing antibody-binding sites can affect humoral immunity induced by infection or vaccination1-6. Here we analysed the development of anti-SARS-CoV-2 antibody and T cell responses in individuals who were previously infected (recovered) or uninfected (naive) and received mRNA vaccines to SARS-CoV-2. While individuals who were previously infected sustained higher antibody titres than individuals who were uninfected post-vaccination, the latter reached comparable levels of neutralization responses to the ancestral strain after the second vaccine dose. T cell activation markers measured upon spike or nucleocapsid peptide in vitro stimulation showed a progressive increase after vaccination. Comprehensive analysis of plasma neutralization using 16 authentic isolates of distinct locally circulating SARS-CoV-2 variants revealed a range of reduction in the neutralization capacity associated with specific mutations in the spike gene: lineages with E484K and N501Y/T (for example, B.1.351 and P.1) had the greatest reduction, followed by lineages with L452R (for example, B.1.617.2). While both groups retained neutralization capacity against all variants, plasma from individuals who were previously infected and vaccinated displayed overall better neutralization capacity than plasma from individuals who were uninfected and also received two vaccine doses, pointing to vaccine boosters as a relevant future strategy to alleviate the effect of emerging variants on antibody neutralizing activity.