D. M. Dean-Emig scite author profile

Human reproduction is dependent upon the actions of follicle-stimulating hormone (hFSH), lutenizing hormone (hLH), and chorionic gonadotropin (hCG). While the a subunits of these heterodimeric proteins can be interchanged without effect on receptor-binding specificity, their (3 subunits differ and direct hormone binding to either LH/CG or FSH receptors. Previous studies employing chemical modifications of the hormones, monoclonal antibodies, or synthetic peptides have implicated hCG (-subunit residues between Cys-38 and Cys-57 and corresponding regions of hLHP and hFSH(3 in receptor recognition and activation. Since the P subunits of hCG or hLH and hFSH exhibit very little sequence similarity in this region, we postulated that these residues might contribute to hormone specificity. To test this hypothesis we constructed chimeric hCG/hFSH ( subunits, coexpressed them with the human a subunit, and examined their ability to interact with LH and FSH receptors and hormone-specific monoclonal antibodies. Surprisingly, substitution of hFSH(3 residues 33-52 for hCG(3 residues 39-58 had no effect on receptor binding or stimulation. However, substitution of hFSH( residues 88-108 in place of the carboxyl terminus of hCG(3 (residues 94-145) resulted in a hormone analog identical to hFSH in Its ability to bind and stimulate FSH receptors. The altered binding specificity displayed by this analog is not attributable solely to the replacement of hCGI3 residues 108-145 or substitution of residues in the "determinant loop" located between hCG(3 residues 93 and 100.Follicle-stimulating hormone (FSH; follitropin), luteinizing hormone (LH; lutropin), chorionic gonadotropin (CG; choriogonadotropin), and thyroid-stimulating hormone (TSH; thyrotropin) constitute a family of heterodimeric glycoproteins that regulate the development and function of the ovary, testis, and thyroid (1). Within a species the a subunit is encoded by a single gene and can be interchanged between hormones without effect on receptor binding, whereas the (3 subunits differ and direct binding specificity (2, 3). Both subunits are required for full biological activity. On the basis of sequence differences between the P subunits and the results of chemical modification studies it has been proposed that amino acid residues between Cys-93 and Cys-100 in human CG ( subunit (hCG() and the corresponding regions of the other hormones form a "determinant loop" which directs hormone specificity (4). Recent studies have demonstrated that synthetic peptides containing the determinant loop region from hCG(3 (5) or hFSH,8 (6) inhibit the binding of 125I-labeled hormone to receptors, albeit at high concentrations (10-100 EM). The FSH peptide also stimulates granulosa cell steroidogenesis. In addition, phosphorylation of hCG(3 residue Thr-97 disrupts binding to LH receptors (7).The region of the ( subunit between Cys-38 and Cys-57 (hCG numbering) has also been proposed to play an important role in receptor binding and stimulation. Synthetic peptides containing hCG, hLH (5...

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Localization of residues that confer antibody binding specificity using human chorionic gonadotropin/luteinizing hormone beta subunit chimeras and mutants.

Moyle¹,

Matzuk²,

Campbell³

et al. 1990

Journal of Biological Chemistry

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Detection of conformational changes in human chorionic gonadotropin upon binding to rat gonadal receptors.

Moyle¹,

Pressey²,

Dean-Emig³

et al. 1987

Journal of Biological Chemistry

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D. M. Dean-Emig

Conversion of human choriogonadotropin into a follitropin by protein engineering.

Localization of residues that confer antibody binding specificity using human chorionic gonadotropin/luteinizing hormone beta subunit chimeras and mutants.

Detection of conformational changes in human chorionic gonadotropin upon binding to rat gonadal receptors.

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