Photoaffinity Labeling of Homologous Met-133 and Met-139 Amino Acids of Rabbit and Sheep Sex Hormone-Binding Globulins with the Unsubstituted Δ6-Testosterone Photoreagent

Abstract

Purified rabbit and sheep sex hormone-binding globulins (SHBGs) were photolabeled by Δ⁶-testosterone. The maximal levels of specific incorporation were respectively 0.33 and 0.30 mol of label/mol of homodimer. Tryptic cleavage of photolabeled SHBGs gave a single radioactive peptide for rabbit SHBG and two major radioactive peptides S₁ and S₂ for sheep SHBG. Edman sequencing of the photolabeled peptide of rabbit SHBG revealed a single sequence corresponding to peptidic fragment Leu-118-Lys-134. Subcleavage of this peptide with elastase led to a single radioactive peptidic fragment corresponding to dipeptide Met-133-Lys-134, identified by mass spectrometry, while deletion of the C-terminal residue with carboxypeptidase B showed that all the radioactivity remained on peptide Leu-118-Met-133, thus demonstrating that photolabeling occurred exclusively on Met-133, the only residue common to the two radioactive subcleaved peptides. Edman sequencing of peptides S₁ and S₂ of sheep SHBG showed a same single sequence corresponding to residues Gln-126-Arg-140 which contained no identifiable phenylthiohydantoin derivative at cycle 14, thus indicating that in both cases the corresponding Met-139 residue is the main site of photolabeling, as confirmed for peptide S₁ by the presence at this cycle of a major peak of radioactivity while in peptide S₂ the photoattachment of Δ⁶-testosterone was found labile in the conditions of sequencing. The photolabeled peptide S₁ was characterized by mass spectrometry which showed the covalent fixation of one mole of Δ⁶-testosterone and the presence of a biantennary oligosaccharide attached at Asn-133, which suggests that the steroid-binding site is probably not deeply buried in the SHBG homodimer.