RESUMO
BackgroundThere has been an unprecedented global effort to produce safe and effective vaccines against SARS-CoV-2. However, production challenges, supply shortages and unequal global reach, together with an increased number of breakthrough infections due to waning of immunity and the emergence of new variants of concern (VOC), have prolonged the pandemic. To boost the immune response, several heterologous vaccination regimes have been tested and have shown increased antibody responses compared to homologous vaccination. Here we evaluated the effect of mRNA vaccine booster on immunogenicity in individuals who had been vaccinated with two doses of inactivated vaccines. MethodsThe levels of specific antibodies against the receptor-binding domain (RBD) of the spike protein from wild-type virus and the Beta, Delta and Omicron variants were measured in healthy individuals who had received two doses of homologous inactivated (BBIBP-CorV or CoronoVac) or mRNA (BNT162b2 or mRNA-1273) vaccines, and in donors who were given an mRNA vaccine boost after two doses of either vaccine. Pre-vaccinated healthy donors, or individuals who had been infected and subsequently received the mRNA vaccine were also included as controls. In addition, specific memory B and T cell responses were measured in a subset of samples. ResultsA booster dose of an mRNA vaccine significantly increased the level of specific antibodies that bind to the RBD domain of the wild-type (6-fold) and VOCs including Delta (8-fold) and Omicron (14-fold), in individuals who had previously received two doses of inactivated vaccines. The level of specific antibodies in the heterologous vaccination group was furthermore similar to that in individuals receiving a third dose of homologous mRNA vaccines or boosted with mRNA vaccine after natural infection. Moreover, this heterologous vaccination regime significantly enhanced the specific memory B and T cell responses. ConclusionsHeterologous prime-boost immunization with inactivated vaccine followed by an mRNA vaccine boost markedly increased the levels of specific antibodies and B and T cell responses and may thus increase protection against emerging SARS-CoV-2 variants including Omicron.
