| Abstract: | The development of a 'two-site' immunoradiometric assay (i.r.m.a.) for the direct estimation of human corticotropin-(1-39)-peptide in plasma is described. The assay is based on the simultaneous addition of 125I-labelled sheep anti-(N-terminal corticotropin) IgG (immunoglobulin G) antibodies and rabbit anti-(C-terminal corticotropin) antiserum to standards and unknowns (0.5 ml) followed by 18h 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 corticotropin-bound from free labelled antibody is achieved by the addition of sheep anti-(rabbit IgG) antiserum, which precipitates bound labelled antibody by complex-formation with rabbit anti-corticotropin antibodies, which are also hormone-bound. Several 125I-labelled sheep anti-(N-terminal corticotropin) IgG preparations were assessed in the i.r.m.a. Although each was derived from antisera raised to a thyroglobulin conjugate of synthetic corticotropin-(1-24)-peptide (Synacthen), purification of immunoglobulins before iodination by selective immunoadsorption resulted in preparations with distinct specificities which demonstrated marked differences in binding to intact human corticotropin-(1-39)-peptide. These preparations are compared in combination with two rabbit anti-(C-terminal corticotropin) antisera. A 'two-site' assay based on the use of 125I-labelled sheep anti-[ corticotropin-(2-16)-peptide] IgG and rabbit anti-[corticotropin-(34-39)-peptide] antiserum was optimized, since steric inhibition of antibody binding was avoided with this combination and because the measurement of only intact human corticotropin-(1-39)-peptide and not fragments was assured by the use of terminal antibodies. This i.r.m.a. is characterized by rapid equilibration of reactants, a wide 'operating range' (the precision of dose estimates was less than 4% over the range 30-2200 pg/ml) and high sensitivity [8 pg of corticotropin/ml (95% confidence interval 3.7-12.0) (4 pg minimal detectable mass) can be detected directly in plasma]. |
