Characterization and immunological determination of the complex between prostate-specific antigen and α2-macroglobulin

Abstract

Prostate-specific antigen (PSA) rapidly forms a complex with α₂-macroglobulin (A₂M) in vitro; however, PSA complexed with A₂M (PSA-A₂M) is not detected by conventional immunoassays for PSA because it is encapsulated by the A₂M. In this study, we show that denaturation of PSA-A₂M at high pH renders PSA immunoreactive. Part of the complexed PSA is released in free form and part remains bound to denatured A₂M. These forms can be measured by a conventional immunoassay for PSA. This finding enabled us to design a dissociation assay for the detection of PSA-A₂M, which was based on the removal of immunoreactive PSA in serum by immunoadsorption, denaturation of PSA-A₂M at high pH, and measurement of the released PSA immunoreactivity by a conventional PSA immunoassay. This PSA-A₂M assay was calibrated with PSA-A₂M formed in vitro. The detection limit of the assay was 0.14 μg/L. Inter- and intraassay coefficients variation were 4–9% and 8–14%, respectively. When purified PSA was incubated with A₂M, the loss of PSA immunoreactivity was highly correlated with the PSA-A₂M formed, as measured by the dissociation assay for PSA-A₂M (r = 0.99; P 2M in serum correlated with that of total PSA both in prostate cancer (PCa) and benign prostatic hyperplasia (BPH); however, the ratio of PSA-A₂M in relation to total PSA was significantly higher in BPH than in PCa (P 2M to total PSA in serum improves the diagnostic accuracy for PCa compared with assays for total PSA only.