Carrier Proteins Facilitate the Generation of Antipolysaccharide Immunity via Multiple Mechanisms
Fan Zhang, Claudette M. Thompson, Nicole Ma, Ying‐Jie Lu, Richard Malley
Abstract
Polysaccharide capsules, the outermost shells of many bacterial pathogens, play a role in pathogenesis and protect bacteria against the immune system. Generating antipolysaccharide antibodies by vaccination has provided effective protection against infectious diseases caused by encapsulated bacteria. However, most pure polysaccharide preparations are poorly immunogenic, particularly in young children. To circumvent this problem, vaccines have been developed using polysaccharides associated with protein carriers. The precise mechanism whereby protein carriers enhance the immunogenicity of the polysaccharide remains unclear. The significance of our research is in elucidating the different roles played by carriers in facilitating polysaccharide processing and presentation, priming polysaccharide-specific B cells, and potentiating recall antipolysaccharide responses. Overall, our work provides new insights into the immunological basis of carrier-mediated antipolysaccharide immunity and may help in the design of more effective polysaccharide-based vaccines.