Antigenic Features of Human Follicle Stimulating Hormone Delineated by Monoclonal Antibodies and Construction of an Immunoradiomometric Assay

Abstract

The characterization of human (h) FSH with 181 monoclonal antibodies (MCA) allowed the elucidation of its antigenic topography. One- and two-site, limited as well as excess reagent type radioimmuno- and enzymoimmunoassays revealed three main categories of MCA molecular binding specificities; two thirds of all antibodies were directed against the a-subunit and one fourth toward the β-chain, and less than one tenth recognized the conformationally (c) intact holohormone. With high frequency immunization schedules these specificities were shifted toward a higher proportion of β-MCA. On the basis of intra- and interspecies cross-reaction studies as well as epitope contiguity analyses by sandwich assays, the three main categories could be further subdivided into nine epitopes: 1) five epitopes associated with the a-subunit, two of which were surprisingly shared by other species, and two being iodination sensitive, 2) two evolutionary conserved structures on the β- subunit, adjacent to each other, and 3) two c-determinants, one of these present also on hTSH. The epitopes were arranged in three major antigenic domains, which seems to be a common homologous construction principle of the four human glycoprotein hormones: a central domain, consisting of three identically arranged a- and similarly located c-epitopes, is flanked by a single spatially distinct domain on each subunit. The establishment of an epitope map was followed by the construction of an immunoradiometric assay with a sensitivity of 0.25 ng hFSH/ml and an apparent cross-reactivity vs. hLH, hTSH, and hCG of less than 1%. (Endocrinology123: 2351–2359, 1988)