Homogeneous sandwich immunoassay based on the enzymatic complementation induced by single-chain Fv fragments

We describe a novel homogeneous sandwich immunoassay based on beta-galactosidase (beta-gal) complementation (the crab-claw sandwich enzymatic complementation immunoassay, CS-ECIA). We chose a high-molecular-weight antigen human serum albumin (HSA) as a model and constructed two chimeric proteins, in which a pair of single-chain Fvs (scFvs) recognizing distant epitopes of HSA was fused to either an N-terminal deletion mutant of beta-gal (Deltaalpha) or a C-terminal deletion mutant of beta-gal (Deltaomega). Upon simple mixing of the reagents with the sample, the two chimeric proteins became associated through binding separate epitopes on HSA that allowed reassociation of the two mutant enzymes. The resulting enzymatic complementation was measured as ail increase in beta-gal activity using a luminescent substrate. With this CS-ECIA, a HSA concentration of 10-1000 pg/mL could be determined. In addition, the assay was easy to operate and required less time, handling, and sample volume than conventional sandwich enzyme-linked immunoassays. The assay will have general utility by substituting scFvs with other pairs of scFvs recognizing any polyvalent antigens. (C) 2004 Elsevier Inc. All rights reserved.