Human placental gonadotrophin-releasing hormone-like factors: an artefact of human placental peptidases?

Abstract

Non-denatured human placental cytosol fractions displaced tracer binding in parallel with gonadotrophin-releasing hormone (GnRH) isoform and agonist peptides in GnRH-specific radioimmunoassays and radioreceptor assays. However, placental immuno- and receptor binding-GnRH-like activity was highly correlated with inactivation of GnRH tracers, suggesting that placental GnRH-like factors may be an artefact of ligand degradation during assay. The properties and inhibitor sensitivities of the major ¹²⁵I-labelled GnRH-degrading enzymes of term placental cytosol were studied using a dextran-coated charcoal (DCC) adsorption assay as a rapid screen for GnRH tracer inactivation. Three different activities were demonstrable: (i) a cathepsin D-like enzyme (M_r 55 kDa), active against all radiolabelled GnRH isoforms and agonists tested, optimal at acid pH, and inhibited specifically by pepstatin; (ii) a metallo-thiol endopeptidase activity (M_r 70 kDa) optimal at alkaline pH (7–9) which degraded GnRH isoforms to a greater extent than GnRH analogues, inhibited dose-dependently by low concentrations of thiol reagents (N-ethylmaleimide, thimerosal), chelating agents (o-phenanthroline, EDTA), and by tosyl-phenylalanyl-chloromethyl ketone but not by other serine protease inhibitors; and (iii) a bacitracin-sensitive enzyme optimal at physiological pH. These observations permitted the development of a robust radioreceptor assay which minimized GnRH tracer degradation. Under these assay conditions, the GnRH-like radioreceptor assay activity of human placental cytosol fractions was markedly reduced.