Article révisé par les pairs
Résumé : Monoclonal antibodies (MAbs) raised against purified human chorionic gonadotrophin (hCG) (n = 30) and synthetic peptides derived from hCG (n = 3) were able to recognize by Western blotting several hCG dimers (57-47 and 42 kDa), free β-subunits (35-32, 26 and 16 kDa) and free α-subunit (21 kDa) which coexist in commercially avalaible hCG preparations. According to differences in the immunoreactivity of hCG-related molecular forms observed under native or denaturing conditions such as boiling or reducing hCG samples before or after gel electrophoresis, nine classes of MAbs able to recognize different immunoreactive domains were determined. Three domains corresponded to continuous epitopes recognized by MAbs raised against hCG-related peptides. The six remaining domains, recognized by the other MAbs, contained discontinuous epitopes from which three were surface-oriented and three disguised in the hole-hormone. This solid-phase approach, combining native and denaturing conditions, represents a simple and powerful tool to screen the specificity of MAbs from varying sources and to investigate molecular variants of proteic hormone.