Photoaffinity labeling of the lutropin receptor with synthetic peptide for carboxyl terminus of the human choriogonadotropin alpha subunit.

Human choriogonadotropin (hCG) consists of an alpha subunit and a beta subunit. The existing evidence from various studies using truncation, substitution, synthetic hormone peptides, and hCG crystals suggests that the C-terminal region of the alpha subunit contacts the luteinizing hormone/choriogonoadotropin (LH/CG) receptor and is involved in receptor activation. Despite a deluge of the speculation and the important role of the alpha C-terminal region, direct evidence for its interaction with the receptor has been elusive. Because of the significant biological activity, it is imperative to prove the interaction of the alpha C-terminal region. For this purpose, decamer peptides corresponding to the alpha subunit sequence from His83 to Ser92 (alpha 83-92) were derivatized with the N-hydroxysuccinimide ester of 4-azidobenzoylglycine (ABG) and radioiodinated. The resulting ABG-125I-alpha 83-92 was capable of binding and activating the LH/CG receptor. Furthermore, UV-sensitive ABG-125I-alpha 83-92 exclusively photoaffinity-labeled an approximately of 86-kDa molecule. This labeled molecule was shown to be the LH/CG receptor by various methods including immunoprecipitation by anti-LH/CG receptor antiserum. In addition, evidence is presented that the amino group of alpha Lys91 of alpha 83-92 is in such close proximity to a carboxyl group of the receptor that this pair is cross-linked to form an amide, a zero length cross-link. This low affinity contact of alpha 83-92 and the receptor is sufficient for receptor activation and is crucial for the full understanding of the mechanistics of the receptor activation steps.