Conjugation of an antigen to a carrier protein is widely used for vaccine development. To develop the next generation of conjugate vaccines, we describe here a method for the controlled multi-functionalization of the widely employed carrier protein CRM197 with a carbohydrate-based antigen and an immune potentiator. The approach is based on the selective reduction of one of the disulfides of CRM197 followed by disulfide rebridging employing an appropriately functionalized dibromopyridazinedione. Efficient protein modification required that the reduction and functionalization with a dibromopyridazinedione was performed as a one-step procedure with control over the reaction temperature. Furthermore, ligations were most successful when dibromopyridazinediones were employed having a functional entity such as a TLR7/8 agonist and a cyclooctyne for further modification. Site-specific conjugation avoids modification of T-epitopes of the carrier protein and covalent attachment of an immune potentiator will ensure that cytokines are produced where the vaccine interacts with relevant immune cells resulting in efficient immune potentiation.
Keywords: antigens; bioconjugation; carbohydrates; protein modification; vaccines.
© 2022 The Authors. ChemBioChem published by Wiley-VCH GmbH.