Multiple roles for peptidylglycine α‐amidating monooxygenase in the response to hypoxia

The biosynthesis of many of the peptides involved in homeostatic control requires peptidylglycine α‐amidating monooxygenase (PAM), an ancient, highly conserved copper‐ and ascorbate‐dependent enzyme. Using the production of amidated chromogranin A to monitor PAM function in tumor cells, physiologica...

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Published in:Journal of cellular physiology Vol. 236; no. 11; pp. 7745 - 7758
Main Authors: Rao, Vishwanatha K. S., Eipper, Betty A., Mains, Richard E.
Format: Journal Article
Language:English
Published: Hoboken Wiley Subscription Services, Inc 01-11-2021
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Summary:The biosynthesis of many of the peptides involved in homeostatic control requires peptidylglycine α‐amidating monooxygenase (PAM), an ancient, highly conserved copper‐ and ascorbate‐dependent enzyme. Using the production of amidated chromogranin A to monitor PAM function in tumor cells, physiologically relevant levels of hypoxia were shown to inhibit this monooxygenase. The ability of primary pituitary cells exposed to hypoxic conditions for 4 h to produce amidated chromogranin A was similarly inhibited. The affinity of the purified monooxygenase for oxygen (Km = 99 ± 19 μM) was consistent with this result. The ability of PAM to alter secretory pathway behavior under normoxic conditions required its monooxygenase activity. Under normoxic conditions, hypoxia‐inducible factor 1a levels in dense cultures of corticotrope tumor cells expressing high levels of PAM exceeded those in control cells; expression of inactive monooxygenase did not have this effect. The effects of hypoxia on levels of two PAM‐regulated genes (activating transcription factor 3 [Atf3] and FK506 binding protein 2 [Fkbp2]) differed in cells expressing high versus low levels of PAM. Putative hypoxia response elements occur in both human and mouse PAM, and hPAM has consistently been identified as one of the genes upregulated in response to hypoxia. Expression of PAM is also known to alter gene expression. A quarter of the genes consistently upregulated in response to hypoxia were downregulated following increased expression of PAM. Taken together, our data suggest roles for PAM and amidated peptide secretion in the coordination of tissue‐specific responses to hypoxia. The biosynthesis of many of the peptides involved in homeostatic control requires peptidylglycine α‐amidating monooxygenase (PAM), an ancient, highly conserved copper‐ and ascorbate‐dependent enzyme. The affinity of the purified monooxygenase for oxygen (Km = 99 ± 19 μM) was consistent with this result. Putative hypoxia response elements occur in both human and mouse PAM, and hPAM has consistently been identified as one of the genes upregulated in response to hypoxia.
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ISSN:0021-9541
1097-4652
DOI:10.1002/jcp.30457