Conjugation of TLR7 and TLR7/8 agonists onto weak protein antigen via versatile oxime ligation for enhanced vaccine efficacy.

Protein-based subunit vaccines are weakly immunogenic, and developing self-adjuvanting vaccines with adjuvant conjugated to antigen is a promising approach for generating optimal immune responses. Here, we report a novel adjuvant-protein conjugate vaccine based on versatile oxime ligation technique. Firstly, the adjuvant properties of a series of TLR7 and TLR7/8 small molecule agonists in self-adjuvanting vaccines were systematically compared by coupling them to proteins in consistent ratio via p-carboxybenzaldehyde (p-CBA) for the first time. All conjugate vaccines induced cytokine secretion in murine and human macrophages in vitro, and promoted specific antibody production in vivo. Notably, a conjugate containing imidazoquinoline TLR7/8 agonist (TLR7/8a1) showed the greatest enhancement in Th1/2 balanced antibody response. To minimize the interference with the protein antigenic integrity, we further developed a systematic glycoconjugation strategy to conjugate this TLR7/8a1 onto the glycan chains of SARS-CoV-2 S1 glycoprotein via oxime ligation, in which S1 containing different numbers of aldehyde groups were obtained by differential periodate oxidation. The resulting TLR7/8a1-S1 conjugate triggered a potent humoral and cellular immunity in vivo. Together these data demonstrate the promise of these TLR7 and TLR7/8 agonists as effective built-in adjuvants, and the versatile oxime ligation strategy might broaden potential applications in designing different conjugate vaccines.