19^th American Dental Congress

Biography

Biography: Huimin Yan

Abstract

Dental caries remains one of the most common global chronic diseases caused by Streptococcus mutans, which is prevalent all
over the world. A potent and effective anti-caries vaccine has long been expected for caries prevention but no vaccines have
been brought to market till now mainly due to the low ability to induce and maintain protective antibody in oral fluids. We explored
different fusion strategies for the generation of a single fusion protein composed of both caries vaccine antigen and flagellin. We
found that intranasal immunization with a single recombinant fusion protein of flagellin and PAc (KF-rPAc) can induce PAc-specific
salivary IgA antibody responses and endow protection against caries. Optimization of the fusion strategy by replacement of the
highly variable region of flagellin with caries vaccine antigen could increase specific IgA antibody response and protection efficacy.
Novel recombinant fusion proteins KFD2-rPAc in which the hyper-variable region of flagellin (KF) was replaced with PAc could
induce robust PAc-specific serum IgG and IgA as well as PAc-specific salivary IgA, meanwhile lower the antibody response against
KF compared with KF-rPAc. More importantly, KFD2-rPAc could provide higher protective efficacy than that by KF-rPAc, but
with limited anti-body response not needed for protection against caries. KFD2-rPAc can be a superior caries vaccine candidate for
possible clinical trial. In conclusion, the fusion protein composed of both caries vaccine antigen and flagellin is an effective strategy
to enhance salivary IgA response and anti-caries efficacy for development of caries mucosal vaccine.