Processing of adrenocorticotropin by two proteases in bovine intermediate lobe secretory vesicle membranes. A distinct acidic, tetrabasic residue-specific calcium-activated serine protease and a PC2-like enzyme

Adrenocorticotropin (ACTH) is cleaved at the tetrabasic residue site, in pituitary intermediate lobe secretory vesicles, to yield ACTH1-17 and corticotropin-like intermediate lobe peptide (CLIP). ACTH1-17 is then converted to alpha-melanocyte-stimulating hormone (N-AcACTH1-13NH2) by first removing the Lys15-Lys16-Arg17 residues, followed by amidation of the COOH terminus and acetylation of the NH2 terminus. Bovine intermediate lobe secretory vesicle membranes were screened for proteolytic enzyme activity that will cleave the tetrabasic residues of ACTH. Two activities with pH optima of 5.0-6.0 and 7.5-8.0 were detected. The acidic, ACTH-converting enzyme cleaved ACTH1-39 at the tetrabasic residues between the Arg17-Arg18 bond to yield ACTH1-17 and CLIP, but did not cleave paired basic residues of pro-opiomelanocortin. This enzyme activity was characterized as a Ca(2+)-activated serine protease with unique specificity for the tetrabasic residues of ACTH1-39. The neutral activity preferentially generated ACTH1-17 and to a small extent ACTH1-16 from ACTH1-39 and ACTH1-24. This enzyme activity was Ca(2+)-dependent but was not inhibited by serine or aspartic protease inhibitors. The neutral activity was significantly immunodepleted by antiserum raised against bovine PC2/PC3, and together with specificity studies, suggests that the enzyme is a PC2-like serine protease. The pH optimum, distinct specificity for tetrabasic residues, and subcellular localization of the acidic ACTH-converting enzyme indicate a function of this enzyme in the in vivo conversion of ACTH1-39 to alpha-melanocyte-stimulating hormone in intermediate lobe secretory vesicles which have an acidic internal pH.