3A). Interestingly, when the TLR-9 ligand CpGB ( Fig. 3B) but not the TLR-3 ligand Poly I:C (data not shown) was co-adsorbed with TT to YC-Brij700-chitosan NP, the T-cell proliferation response was further enhanced
(P < 0.0001). To confirm that this effect was due to the co-adsorption GSK1120212 in vivo of both TT Ag and CpGB to the YC-wax NP, several controls were performed ( Fig. 3B). Specifically, to test that the enhancing effect was not due to cell activation induced by the chitosan present on the YC-wax Brij700-chitosan NP, both chitosan alone and together with TT (in the absence of NP) were also assessed. Results show that neither chitosan nor TT+chitosan enhanced T-cell proliferation ( Fig. 3B). In addition, although CpGB induced T-cell proliferation on its own, this induction was significantly lower than
that induced by TT-CpGB co-adsorbed NP. Further confirmation of the enhancing effect on T-cell proliferation by co-adsorption of TT plus CpGB on NP, was demonstrated when instead of using TT, the irrelevant Ag BSA was co-adsorbed to NP with CpGB ( Fig. 3B). To test whether NP could enhance T-cell proliferative responses to Libraries gp-140, splenocytes from gp140-immunized mice were used in vitro. Splenocytes were cultured in the presence of Ag alone or gp140-adsorbed NP and the incorporation of 3H[Td] into DNA measured after three days of culture. gp140-adsorbed NP but not naked NP selleckchem enhanced splenocyte proliferative responses to gp140 (P < 0.001)( Fig. 3C), indicating that such an effect was not due to the particles themselves. Experiments were performed in mice using gp140-adsorbed NP to determine whether NP can enhance humoral responses to Ag in vivo. Similar experiments were performed previously using TT and results showed that systemic immunization with all three NP enhanced serum levels of specific anti-TT IgG after the first boost (60 days), which were comparable to those induced by Alum (Fig. 4A). Such levels were not enhanced further
after the third immunization (90 days), and became comparable to those induced by TT alone, which by itself is a very potent Ag [27], suggesting that the role of NP was to increase DNA ligase the kinetics of serum anti-TT IgG. For induction of specific anti-gp140 IgG and IgA, animals were immunized i.d. with gp140 following a prime-boost-boost protocol at 30 day intervals. Serum samples were taken before each immunization and 30 days after the last boost, and the levels of IgG and IgA were tested by gp140-specific ELISA. gp140 alone induced significant levels of IgG but these levels were much higher when the Ag was adsorbed to NP (Fig. 4B). Such IgG levels were comparable to those induced by Alum (day 60), and differences were already observable following a single prime (day 30). Plateau IgG levels were already observed after first boost (day 60, Fig. 4B).