Broad-spectrum vaccine via combined immunization routes triggers potent immunity to SARS-CoV-2 and its variants

Abstract

ABSTRACT Developing broad-spectrum vaccines and optimal vaccination strategies is crucial to controlling the COVID-19 pandemic. Here, we generated a chimpanzee adenoviral vector-based COVID-19 vaccine carrying broad-spectrum immunogens, modified full-length spike, and conserved T-cell epitopes of SARS-CoV-2, and assessed its immune response in mice through intramuscular (i.m.), intranasal (i.n.), or combined immunization routes (i.m. + i.n., or i.n. + i.m.). Compared to other vaccination strategies, the two combined regimens elicited higher neutralizing antibody (NAb) responses to all variants. Compared to i.n. + i.m. regimen, the i.m. + i.n. regimen stimulated a stronger secondary GC response, which is more pivotal to high-quality antibody production than the primary GC response. Moreover, the i.m. + i.n. regimen was adept at mediating systemic cellular immunity, while the i.n. + i .m. regimen tended to elicit lung tissue-resident memory T (T RM ) cell responses. Overall, the two combined regimens induced comprehensive but distinct immune responses consisting of lgA, lgG, NAbs, GC B cells, long-lived plasma cells, T RM cells, and systemic memory T cells, which conferred complete protection against BA.2 infection in hACE2 transgenic mice, and warranted further investigation as potential universal vaccination strategies. IMPORTANCE The development of broad-spectrum SARS-CoV-2 vaccines will reduce the global economic and public health stress from the COVID-19 pandemic. The use of conserved T-cell epitopes in combination with spike antigen that induce humoral and cellular immune responses simultaneously may be a promising strategy to further enhance the broad spectrum of COVID-19 vaccine candidates. Moreover, this research suggests that the combined vaccination strategies have the ability to induce both effective systemic and mucosal immunity, which may represent promising strategies for maximizing the protective efficacy of respiratory virus vaccines.