Immunogenicity of antigen-conjugated biodegradable polydiacetylene liposomes administered mucosally.

In this work, we report a protocol for synthesizing nanosize ovalbumin-functionalized polydiacetylene (PDA) liposomes (LP-Ova). We show that LP-Ova administered per-orally (p.o.) and subcutaneously (s.c.), without the use of adjuvants, induces high serum IgG1 titers. As reported previously using polystyrene nanoparticles (NPs), p.o.-primed mice developed high titers of IgG2c and intestinal IgA following s.c. boosting immunization with LP-Ova. Mice that received a single s.c. immunization with LP-Ova did not develop serum IgG2c or intestinal IgA antibodies. Additionally, in s.c.-immunized mice serum IgG1 titers decreased significantly by 3 months after immunization. In contrast, in mice primed p.o. and boosted s.c. with LP-Ova, serum IgG1/IgG2c, and intestinal IgA antibody titers remained stable. Administration of LPs exerted no adverse effects on immunized mice as no morbidity or signs of toxicity were observed for the duration of the studies. These results indicate that antigen-conjugated liposomes are immunogenic and confirm a previous report that mucosal priming followed by a s.c. boosting immunization is the most effective strategy for inducing long-lasting mucosal IgA, as well as a polarized Th1/Th2 systemic response. In addition to being biodegradable and easily functionalized by conjugation, liposomes have a hollow core which can also be loaded with cargo, allowing for a targeted delivery of multiple antigens (or drugs) simultaneously. © 2016 Wiley Periodicals, Inc. J Biomed Mater Res Part A: 105A: 557-565, 2017.

Development of acolorimetric, superparamagnetic biosensor for the capture and detection of biomolecules.

Polydiacetylenes are ideal sensing materials due to their ability to change color in response to external stimuli. Here we report a new colorimetric, magnetically separable biosensor using a diacetylene monomer modified with a hydrophilic lysine derivative and superparamagnetic iron oxide nanoparticles. The particles demonstrated a distinct blue to red color transition when added to ethanol and could be quickly separated from solution with a common magnet. Surface functionalization of the particles with bovine serum albumin (BSA) showed the ability to capture and detect anti-BSA antibody from antiserum with a colorimetric response, demonstrating our biosensors can serve as a platform for diagnostic applications including point-of-care testing.