PHOSPHORYLATION OF THE CYTOSOLIC DOMAIN OF PEPTIDYLGLYCINE ALPHA-AMIDATING MONOOXYGENASE

Peptidylglycine alpha-amidating monooxygenase (PAM) is a bifunctional enzyme that catalyzes the COOH-terminal alpha-amidation of neural and endocrine peptides through a two-step reaction carried out sequentiall y by its monooxygenase and lyase domains. PAM occurs in soluble and in tegral membrane forms. Metabolic labeling of stably transfected hEK-29 3 and AtT-20 cells showed that [P-32]PO43- was efficiently incorporate d into Ser and Thr residues of membrane PAM but not into soluble PAM. Truncation of integral membrane PAM proteins (which terminate with Ser (976)) at Tyr(936) eliminated their phosphorylation, suggesting that t he COOH-terminal region of the protein was the site of phosphorylation . Recombinant PAM COOH-terminal domain was phosphorylated on Ser(932) and Ser(937) by protein kinase C (PKC). PAM-1 protein recovered from d ifferent subcellular fractions of stably transfected AtT-20 cells was differentially susceptible to calcium-dependent, staurosporine-inhibit able phosphorylation catalyzed by endogenous cytosolic protein kinase( s). Although phorbol ester treatment of hEK-293 cells expressing PAM-1 stimulated the cleavage/release of a bifunctional 105-kDa PAM protein , the effect was an indirect one since it was also observed in hEK-293 cells expressing a truncated PAM-1 protein that was not phosphorylate d. AtT-20 cells expressing PAM-1 lacking one of the PKC sites (PAM-1/S er(937) --> Ala) exhibited an altered pattern of PARI PARI antibody in ternalization, with the mutant protein targeted to lysosomes upon inte rnalization. Thus, phosphorylation of Ser(937) in the COOH-terminal cy tosolic domain of membrane PAM plays a role in a specific step in the targeting of this protein.