Analyte detection with DNA-labeled antibodies and polymerase chain reaction

Abstract

We demonstrate immuno-polymerase chain reaction (PCR) assays for two clinical analytes - human thyroid-stimulating hormone and chorionic gonadotropin (hTSH, hCG) - using DNA-labeled antibodies and PCR for amplification of assay response. DNA-antibody conjugates were synthesized by using heterobifunctional cross-linker chemistries to covalently attach single- or double-stranded DNA labels through amine or sulfhydryl groups on the analyte antibodies. These approaches yielded molecular chimeras possessing both analyte-specific antibody binding and nucleic acid amplification functionalities. Dose-response relationships were demonstrated for immuno-PCR assays of both analytes in a microtiter plate-based, two- antibody sandwich assay format. Detection limits for hTSH (1 x 10-19 mol, <1.4 mIU/L) and hCG (5 x 10-18 mol, 0.025 IU/L) exceeded those of conventional enzyme immunoassays by 2-3 orders of magnitude. We also evaluated various DNA design factors influencing label amplification and assay performance, such as primer sequence, strand number, and DNA length. Our findings, in concert with previous reports, suggest that this hybrid technology could provide the basis for a new generation of ultra-sensitive immunoassays offering multianalyte capabilities.