Abstract: | The development of a 'two-site' immunoradiometric assay for human prolactin (hPrl) is described. The assay is based on the addition of radio-iodinated sheep anti-hPrl immunoglobulin G (IgG) and rabbit anti-hPrl serum to standards and unknowns followed by 3 h incubation. The use of solid phase reagents was avoided in order to minimize non-specific effects and the time required for reactants to reach equilibrium. Instead, the separation of hPrl-bound and free labelled antibody is achieved by the addition of sheep anti-(rabbit IgG) serum which precipitates bound labelled antibody by complex formation with rabbit anti-hPrl antibodies which are also hPrl-bound. Varying the order of addition of specific antibodies had a pronounced effect on the 'operating range' and sensitivity of resultant assays. This was attributed to competition between labelled and unlabelled antibodies for binding sites on the hPrl molecule. The immunoradiometric assay employing 'simultaneous addition' of specific antibodies was compared to a 'simultaneous addition' hPrl radioimmunoassay developed using the same sheep antiserum as that used to prepare the radioiodinated sheep anti-hPrl IgG. This immunoradiometric assay is characterized by rapid equilibration of reactants, a wide 'operating range' (the precision of dose estimates was less than 10% over the range 8-10000 mU/l), and high sensitivity (2.6 mU/l, 13 pg). In contrast, the hPrl radioimmunoassay required an incubation of 18 h, demonstrated a much reduced 'operating range' (the precision of dose estimates was less than 10% only over the range 25-1500 mU/l) and reduced sensitivity (9.8 mU/l, 49 pg). |