SARS-CoV-2 specific T cells induced by both SARS-CoV-2 infection and mRNA vaccination broadly cross-recognize omicron (preprint)

The SARS-CoV-2 variant of concern (VOC) omicron (B1.1.529) is associated with high infectivity and efficient evasion from humoral immunity induced by previous infection or vaccination. In omicron-infected individuals who have been vaccinated or infected before, severe disease seems to be relatively infrequent pointing towards protection by previously primed SARS-CoV-2-specific T cells that cross-recognize omicron. By performing a comprehensive in-depth comparison of the SARS-CoV-2-specific T cell epitope repertoire after natural infection versus after mRNA vaccination, we here demonstrate that spike-derived epitopes are not dominantly targeted in convalescents compared to non-spike epitopes. In vaccinees, however, we detected a broader spike-specific T cell response compared to convalescents reflected by a more diverse repertoire of dominantly targeted spike-specific T cell epitopes. Booster mRNA vaccination induced a broader spike-specific T cell response in convalescents but not in vaccinees with complete initial vaccination. In convalescents and vaccinees, the targeted T cell epitopes are broadly conserved between ancestral and omicron SARS-CoV-2 variants. Hence, our data emphasize the relevance of mRNA vaccine-induced spike-specific CD8+ T cell responses in combating emerging SARS-CoV-2 VOC including omicron and support the benefit of also boosting convalescent individuals with mRNA vaccines.

Early and rapid identification of COVID-19 patients with neutralizing type I-interferon auto-antibodies by an easily implementable algorithm (preprint)

Purpose Six-19% of critically ill COVID-19 patients display circulating auto-antibodies against type I interferons (IFN-AABs). Here, we establish a clinically applicable strategy for early identification of IFN-AAB-positive patients for potential subsequent clinical interventions. Methods We analysed sera of 430 COVID-19 patients with severe and critical disease from four hospitals for presence of IFN-AABs by ELISA. Binding specificity and neutralizing activity were evaluated via competition assay and virus-infection-based neutralization assay. We defined clinical parameters associated with IFN-AAB positivity. In a subgroup of critically ill patients, we analyzed effects of therapeutic plasma exchange (TPE) on the levels of IFN-AABs, SARS-CoV-2 antibodies and clinical outcome. Results The prevalence of neutralizing AABs to IFN- and IFN-{omega} in COVID-19 patients was 4.2% (18/430), while being undetectable in an uninfected control cohort. Neutralizing IFN-AABs were detectable exclusively in critically affected, predominantly male (83%) patients (7.6% IFN- and 4.6% IFN-{omega} in 207 patients with critical COVID-19). IFN-AABs were present early post-symptom onset and at the peak of disease. Fever and oxygen requirement at hospital admission co-presented with neutralizing IFN-AAB positivity. IFN-AABs were associated with higher mortality (92.3% versus 19.1 % in patients without IFN-AABs). TPE reduced levels of IFN-AABs in three of five patients and may increase survival of IFN-AAB-positive patients compared to those not undergoing TPE. Conclusion IFN-AABs may serve as early biomarker for development of severe COVID-19. We propose to implement routine screening of hospitalized COVID-19 patients according to our algorithm for rapid identification of patients with IFN-AABs who most likely benefit from specific therapies.