ABSTRACT Subunit vaccines are safer and can more broadly be applied across the population then other vaccine formulations such as live-attenuated. However, subunit antigens are often poorly antigenic and require formulation with an immune stimulating adjuvant to garner protection. Additionally, some vaccines require more than one adjuvant, necessitating combined adjuvants to stimulate a protective response. Also, a combined adjuvant could decrease vaccination boosts and provide longer protection. One avenue to evaluate combined adjuvants is with mast cell (MC) agonists. MCs are throughout the body and reside at many interfaces of the host and the environment. When activated MCs recruit monocytes and leukocytes to the local area and help to promote an adaptive response. MC agonists combined with toll-like receptor (TLR), nucleotide-binding oligomerization domain-containing protein 2 (NOD-2), or stimulators of interferon genes (STING) agonists should elicit not only a humoral response, but also a cellular response to create an efficacious and effective vaccine. Herein we will evaluate combined MC agonists with TLR, NOD-2 or STING agonist to identify synergistic pairs. Pairs will be evaluated in mice and human cells as well as with cells from collaborative cross (CC) strains. The CC strains are a large panel of recombinant inbred mouse strains with genetic variation that can mimic the human population as well as give insight into genetic variables that contribute to adjuvant mechanism. To ensure that the adjuvants are co-delivered as well as offer dose sparring, storage outside the cold chain and controlled release of adjuvant, we will formulate them into acetalated dextran (Ac-DEX) microparticles. Ac-DEX formulations have illustrated enhanced delivery of STING, NOD-2, TLR and MC agonists in vitro and in vivo, above that of other carriers like liposomes or PLGA particles. The best identified adjuvant combination will be evaluated in a mouse model of a vaccinia vaccine