Potent antigen-specific immune responses stimulated by codelivery of CpG ODN and antigens in degradable microparticles

CpG ODN stimulates a T(H)1 response through its receptor Toll-like receptor 9 (TLR9). TLR9 is a receptor that is found intracellularly. Microparticles are efficiently internalized by dendritic cells (DCs) and macrophages and would thus be an ideal delivery vehicle for CpG ODN to reach its target site thereby enhancing the T(H)1 response to an antigen also encapsulated in the microparticle. Here, we show that careful control over fabrication parameters can produce biodegradable microparticles with predictable size distributions, surface morphology, and shape. Entrapment efficiencies of the model antigen OVA ranged from 19% to 23% with an average loading of 10 mu g/mg of microparticles. For CpG ODN, these values were 33% to 35%, which corresponded to an average loading of 8.5 mu g/mg of microparticles. The microparticles release CpG ODN and OVA in a burst followed by sustained release profile. At the highest concentration of microparticles incubated with a pure DC cell line, 92% of DCs had internalized microparticles by 16 hours, confirming that DCs efficiently take up the microparticles. Microparticles are capable of inducing DC maturation as determined by up-regulation of CD80 and CD86 markers. Although the presence of CpG ODN in the microparticles did not impact on the phenotype of the DCs, it was necessary for DCs to induce activation of an figen- specific T cells as indicated by interferon-gamma production. Microparticles entrapping both antigen and CpG ODN induced significantly higher amounts of anti-OVA antibody production than other preparations such as the soluble OVA and CpG ODN (P < 0.01) and stimulated stronger IgG2a production than delivery of microparticles entrapping antigen alone. We conclude that coencapsulating immunostimulatory CpG ODN and antigen in degradable microparticles is an effective approach to enhancing development of a T(H)1 immune response.