Development of an amplified luminescent proximity homogeneous assay for quantitative determination of hepatitis B surface antigen in human serum

Abstract

BackgroundHepatitis B virus (HBV) poses a serious risk to human health and the hepatitis B surface antigen (HBsAg) is a popular biomarker in the diagnosis of HBV infection. A quantitative method with a high degree of accuracy, sensitivity and throughput is needed. MethodsA novel amplified luminescent proximity homogeneous assay (AlphaLISA) was developed for HBsAg determination. A set of monoclonal antibodies was screened against the main subtypes of HBsAg (adr, ay) to confirm the assay's sensitivity to mutants. Technological processes and reaction conditions were optimized and the assay performance was evaluated. ResultsHBsAg concentrations were determined within a linear range of 0.04 to 100IUml−1. The detection sensitivity was established as 0.01IUml−1. Assay sensitivity to mutant HBsAg was achieved through antibody screening. The results demonstrate that the reproducibility, recovery, and specificity of this assay for HBsAg were better than acceptable. Compared with the commercial light-initiated chemiluminescence assay, the correlation coefficient of the novel assay was established as 0.921. ConclusionsThe novel AlphaLISA developed in this study has shorter incubation time and easier protocol than the ones of conventional ELISA. It could be used for the clinical determination of HBsAg in human serum. We established a platform for further development of other biomarkers.