Preparation and Characterization of Ligand-Modified Labelled Liposomes for Solid Phase Immunoassays

Abstract

Small unilamellar vesicles conjugated with an enzyme label and with specific ligands for biological molecules may prove to be useful as signal enhancement vehicles in the development of enzyme-linked immunoadsorbent assays and other detection applications. Bifunctional vesicles have been prepared by covalently attaching horseradish peroxidase (HRP) and monoclonal antibodies to the outside of the lipid bilayer. The reaction conditions were optimized to obtain 7-12 antibody molecules and 100-200 HRP molecules per vesicle. The enzyme retained 70-80% of its specific activity after immobilization with no apparent change in vesicle stability. These bifunctional vesicles were used in a noncompetitive immunoassay for D-Dimer, a fibrin dimer formed at the early stages of thrombogenesis. The assay results using vesicles led to a detection limit for D-Dimer in human plasma which was five times lower than what was achieved using a conventional enzyme-antibody conjugate assay. HRP labelled (bifunctional) liposomes can also be used in competitive assays for the detection of small ligands in bulk solution. HRP and biotin-conjugated vesicles were prepared and used in competitive assays for biotin in free solution. The lowest detection limit for biotin using vesicles as the signal generation mechanism was found to be a factor of 10 lower than what could be observed with a traditional biotin-HRP conjugate. A model has been developed for the competition between a small ligand in solution and a large ligand-conjugated vesicle for binding sites on a solid surface.