Identification of Trp-371 as the main site of specific photoaffinity labeling of corticosteroid binding globulin using .DELTA.6 derivatives of cortisol, corticosterone, and progesterone as unsubstituted photoreagents

Abstract

Immunopurified human corticosteroid binding globulin (CBG) was photolabeled with delta 6-[3H]cortisol, delta 6-[4-14C]cortisol, delta 6-[3H]corticosterone, and delta 6-[3H]progesterone. The maximal levels of specific incorporation, as estimated with tritiated photoreagents, were 0.21, 0.14, and 0.08 mol of label/mol of CBG, respectively. Tryptic cleavage of photolabeled CBG gave in all cases a major radioactive peptide that was no longer detectable when a 100-fold molar excess of cortisol was added to the photoreagents. Edman sequencing of tryptic peptides photolabeled with delta 6-[3H]cortisol or delta 6-[3H]corticosterone showed that these peptides correspond to residues 357-378 of the human CBG sequence. The major peak of radioactivity of these peptides was eluted at the 15th cycle (Trp-371). The radioactive tryptic peptides photolabeled with the four steroid photoreagents were subcleaved with alpha-chymotrypsin. The major part of radioactivity was recovered in the T-[*X]-S-S-L-F hexapeptide 370-375 (major peptide) and in the D-H-F-T-[*X]-S-S-L-F nonapeptide 367-375, at the second and fifth Edman cycles, respectively, whereas no PTH derivative could be identified at these cycles, thus suggesting Trp-371 as the main site of photolabeling for all tested photoreagents. Mass spectrometry of tryptic peptides photolabeled with delta 6-[3H]cortisol and delta 6-[3H]corticosterone and of chymotryptic peptides photolabeled with delta 6-[3H]cortisol, delta 6-[3H]corticosterone, and delta 6-[3H]progesterone showed molecular masses corresponding to the addition of delta 6-steroid photoreagents to the peptide.