Ad26.COV2.S breakthrough infections induce high titers of antibodies capable of neutralizing variants of concern (preprint)

The Janssen (Johnson & Johnson) Ad26.COV2.S non-replicating viral vector vaccine, which requires only a single dose and conventional cold chain storage, is a valuable tool for COVID-19 vaccination programs in resource-limited settings. Here we show that neutralizing and binding responses to Ad26.COV2.S vaccination are stable for 6 months post-vaccination, with responses highest against the ancestral vaccine-similar D614G variant. Secondly, using longitudinal samples from individuals who experienced clinically mild breakthrough infections 3-4 months after vaccination, we show dramatically boosted binding antibodies, Fc effector function and neutralization. These responses, which are cross-reactive against diverse SARS-CoV-2 variants and SARS-CoV-1, are of similar magnitude to humoral immune responses measured in severely ill, hospitalized donors. These data highlight the significant priming capacity of Ad26.COV2.S, and have implications for population immunity in areas where the single dose Ad26.COV2.S vaccine has been deployed.

A SARS-CoV-2 variant of concern triggers Fc effector function with increased cross-reactivity (preprint)

SARS-CoV-2 variants of concern (VOCs) exhibit escape from neutralizing antibodies, causing concern about vaccine effectiveness. However, while non-neutralizing cytotoxic functions of antibodies are associated with decreased disease severity and vaccine protection, Fc effector function escape from VOCs is poorly defined. Furthermore, whether VOCs trigger Fc functions with altered specificity, as has been reported for neutralization, is unknown. Here, we demonstrate that the Beta VOC partially evades Fc effector activity in individuals infected with the original (D614G) variant. However, not all functions are equivalently affected, suggesting differential targeting by antibodies mediating distinct Fc functions. Furthermore, Beta infection triggered responses with significantly improved Fc cross-reactivity against global VOCs compared to either D614G infected or Ad26.COV2.S vaccinated individuals. This suggests that, as for neutralization, the infecting spike sequence impacts Fc effector function. These data have important implications for vaccine strategies that incorporate VOCs, suggesting these may induce broader Fc effector responses.