Complement-Mediated Inactivation of Interferon-Gamma in Elisa Systems

Abstract

The recovery of a predetermined amount of interferon-gamma (IFN-γ) added to normal serum was studied in two independent sandwich ELISA systems specific for rat and human IFN-γ. In both assays the ELISA activity was rapidly lost in fresh but not in heat-inactivated (30′, 56°C) serum. Ninety percent of the initial activity had disappeared within 30 minutes upon incubation at 37°C. Serum-mediated inhibition was not species-specific as the ELISA activity of rat IFN-γ diminished equally well in rat and human sera. Inhibition was critically dependent on the isotype of the solid-phase monoclonal antibody (mAb) used in the ELISA systems. IgG₁ and IgG_2a mAbs efficiently inhibited the ELISA activity of IFN-γ, whereas an IgA mAb was ineffective. The inhibition was not influenced by a wide variety of anti-proteolytic agents but was effectively blocked by anti-complementary substances or treatments directed to the first (CI) and third (C3) component of complement. Our results indicate that activation of the classical pathway of complement (CPC) and the concomittant covalent binding of C3 to the IFN-γ molecule play a major role in the inhibitory process. It is concluded that reduction of the ELISA activity is attributable to diminished accessibility of the detector antibody for the IFN-γ protein as a consequence of C3 binding.