Immunochemical mapping of gonadotropin.

Berger, Peter and Bidart, J-M. and Delves, Peter J. and Dirnhofer, S. and Hoermann, R. and Isaacs, N. and Jackson, A. M. and Klonisch, T. and Lapthorn, Adrian J. and Lund, Torben and Mann, K. and Roitt, Ivan and Schwartz, S. and Wick, G. (1996) Immunochemical mapping of gonadotropin. Molecular and cellular endocrinology. , 125 (1-2). pp. 33-43. ISSN 0303-7207

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Abstract

As a glycoprotein hormone, human chorionic gonadotropic (hCG) is not a single molecular entity but this term rather comprises an array of molecular variants such as hCG, hCGβ, hCGn, hCGβn, hCGβcf, -Image hCG, hCGβImage , deglyhCG, asialohCG, hCGav and the closely related molecules hLH, hLHβ and hLHβef. The advent of monoclonal antibodies (MCA), the availability of ultrasensitive detection systems and the recent determination of the crystal structure of hCG, made it possible to design special purpose diagnostic and clinical research immunoassays for hCG-like molecules. For more than a decade we and others have tried to refine epitope maps for hCG and related molecules by means of a large panel of MCA, naturally ocurring metabolic variants of hCG (hCGn, hCGβ, hCGα, hCGβcf, hCGβImage ), homologous hormones and subunits of various species (e.g. hLH, hLHβ, hFSH, hTSH, oLH, rLHβ), chemically modified molecules (deglyhCG, asialohCG, tryptic and chymotryptic hCGβ and hCGα fragments) and synthetic peptides (octapeptides and longer). It appeared that all epitopes on molecular hCG-variants recognized by our MCA are determined by the protein backbone. Except for the two major epitopes on hCGβImage and parts of two antigenic domains on hCGα, epitopes on hCG-derived molecules are determined by the tertiary and quarternary structure. Operationally useful descriptive epitope maps were designed including information on assay suitability of antigenic determinants. On this basis we established ultrasensitive time-resolved fluoroimmuno-assays for hCG, hCG and hCGn, hCGβ and hCGβn and hCGβcf, hCGα and additional assays recognizing different spectra of hCG-variants. Such assays have been applied by us and others to the detection of pregnancy, early pregnancy loss, choriocarcinoma, testicular cancer, other cancers and prenatal diagnosis. However, as the molecular structure of many epitopes utilized in immunoassays of different laboratories was not resolved, comparability of results was not satisfactory. Consequently, attempts were made to compare schematic epitope maps from different research institutions. The situation has been much improved by solving the three-dimensional (3D) structure of hCG. It has been shown that hCG is a member of the structural superfamily of cystine knot growth factors like NGF, PDGF-B and TGF-β. Each of its subunits is stabilized in its topology by three disulfide bonds forming a cystine knot. Moreover, it turned out that the disulfide bridges in their majority have previously been wrongly assigned. Computer molecular modeling of crystallographic coordinates of hCG and subsequent selective combined—PCR-based and immunological—mutational analyses of hCGβ expressed via the transmembrane region of a MHC molecule made it possible to more precisely localize epitopes on hCG-derived molecules. Although the entire surface of hCG has to be regarded as potentially immunogenic there seems to be hot spots where epitopes are clustered in antigenic domains. These are located on the first and third loops protuding from the cystine knots of both subunits and are possibly centered around the knot itself. Ultimate answers on epitope localizations will be given by the crystal structure determination of hCG complexed with different Fabs.

Item Type:Article
Research Areas:Middlesex University Schools and Centres > School of Science and Technology > Natural Sciences
ID Code:3905
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Deposited On:02 Feb 2010 08:51
Last Modified:06 Feb 2013 11:45

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