Anahit V. Azaryan scite author profile

Peptide hormones and neurotransmitters constitute a large class of neurohumoral agents that mediate cell-cell communication in neuroendocrine systems. Their biosynthesis requires proteolytic processing of inactive protein precursors into active neuropeptides. Elucidation of the proteolytic components required for prohormone processing is important for identifying key proteases that may control the production of neuropeptides. This article compares the subtilisin-like PC1/3 and PC2 processing enzymes identified through molecular biological approaches, and several candidate processing enzymes identified biochemically, including the 'proopiomelanocortin converting enzyme' (PCE) and the 'prohormone thiol protease' (PTP), as well as others of different classes (aspartyl, cysteine, metallo, and serine proteases). A role for PTP in cellular proenkephalin processing is suggested by blockade of forskolin-stimulated (Met)enkephalin production by Ep453 that is converted intracellularly to E-64c, a selective cysteine protease inhibitor that potently inhibits PTP. A possible role for endogenous protease inhibitors in prohormone processing represents a new aspect of cellular mechanisms that may regulate neuropeptide biosynthesis. Future studies of the enzymology and molecular biology of processing enzymes and endogenous protease inhibitors will be necessary to elucidate mechanisms of prohormone processing.

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Purification and Characteristics of the Candidate Prohormone Processing Proteases PC2 and PC1/3 from Bovine Adrenal Medulla Chromaffin Granules

Azaryan

Krieger

Hook

1995

Journal of Biological Chemistry

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The prohormone-processing proteases PC1/3 and PC2 belong to the family of mammalian subtilisin-related proprotein convertases (PC) possessing homology to the yeast Kex2 protease. The presence of PC1/3 and PC2 in secretory vesicles of bovine adrenal medulla (chromaffin granules) implicates their role in the processing the precursors of enkephalin, neuropeptide Y, somatostatin, and other neuropeptides that are present in chromaffin granules. In this study, PC1/3 and PC2 were purified to apparent homogeneity from the soluble fraction of chromaffin granules by chromatography on concanavalin A-Sepharose, Sephacryl S-200, pepstatin A-agarose, and anti-PC1/3 or anti-PC2 immunoaffinity resins. PC1/3 and PC2 were monitored during purification by measuring proteolytic activities with 35S-enkephalin precursor and Boc-Arg-Val-Arg-Arg-methylcoumarin amide (MCA) substrates and by following PC1/3 and PC2 immunoreactivity with specific anti-PC1/3 and anti-PC2 sera generated in this study. Purified PC1/3 and PC2 on SDS-polyacrylamide gels each show a molecular mass of 66 kDa. PC2 in the soluble fraction of chromaffin granules was present at 5- and 10-fold higher enzyme protein and activity, respectively, compared with that of PC1/3. PC1/3 and PC2 cleaved paired basic and monobasic sites within peptide-MCA substrates, with Boc-Arg-Val-Arg-Arg-MCA and pGlu-Arg-Thr-Lys-Arg-MCA as the most effectively cleaved peptides tested. PC1/3 and PC2 showed pH optima of 6.5 and 7.0, respectively. Kinetic studies indicated apparent Km values for hydrolysis of Boc-Arg-Val-Arg-Arg-MCA as 66 and 40 microM, with Vmax values of 255 and 353 nmol/h/mg for PC1/3 and PC2, respectively. Specificity of the PC enzymes for dibasic sites was confirmed by potent inhibition by the active site-directed peptide inhibitors (D-Tyr)-Glu-Phe-Lys-Arg-CH2Cl and Ac-Arg-Arg-CH2Cl. Inhibition by EGTA and activation by Ca2+ indicated PC1/3 and PC2 as Ca(2+)-dependent proteases. In addition, PC enzymes were activated by dithiothreitol and inhibited by thiol-blocking reagents, p-hydroxymercuribenzoate and mercuric chloride. These results illustrate the properties of endogenous PC1/3 and PC2 as prohormone-processing enzymes.

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Effect of Chronic Cocaine Treatment on μ‐ and δ‐Opioid Receptor mRNA Levels in Dopaminergically Innervated Brain Regions

Azaryan

Coughlin

Búzás

et al. 1996

Journal of Neurochemistry

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The regulation of μ‐(MOR) and δ‐opioid receptor (DOR) after chronic cocaine administration has been studied. Male Sprague‐Dawley rats were treated for 3 days with saline and cocaine (50 mg/kg/day) delivered by osmotic minipump. Expression of MOR and DOR mRNA in olfactory bulb, nucleus accumbens, and caudate‐putamen (caudal and rostral parts) was estimated using quantitative competitive PCR assays after reverse transcription. No changes in the levels of mRNA for DOR were detected after exposure to cocaine in the brain regions examined. A significant increase in the level of MOR mRNA was detected in nucleus accumbens after 3 days of cocaine treatment. In caudate‐putamen and olfactory bulb, no change in MOR mRNA was observed after cocaine administration. Both SCH 23390 and eticlopride, selective antagonists of D1‐ and D2‐dopamine receptors, respectively, blocked this cocaine‐induced up‐regulation of MOR mRNA in nucleus accumbens. We suggest that endogenous opioid systems in nucleus accumbens, the brain region specifically associated with the reinforcing properties of addictive drugs, are regulated by dopaminergic mechanisms and influenced by cocaine treatment.

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The Processing Proteases Prohormone Thiol Protease, PC1/3 and PC2, and 70-kDa Aspartic Proteinase Show Preferences among Proenkephalin, Proneuropeptide Y, and Proopiomelanocortin Substrates

Hook

Schiller

Azaryan

1996

Archives of Biochemistry and Biophysics

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Mu opioid receptor mRNA in nucleus accumbens is elevated following dopamine receptor activation

1996

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We have previously demonstrated that continuous cocaine treatment for three days induces a marked but transient increase in mu opioid receptor (MOR) mRNA in nucleus accumbens (n. acc.); SCH 23390 and eticlopride, selective antagonists of D1- and D2-like dopamine (DA) receptors, respectively, blocked this cocaine-induced upregulation of MOR mRNA in n. acc. suggesting involvement of both subfamilies of DA receptors in the effect of cocaine (1,2). In the present study the ability of the selective DA D3 receptor antagonist, nafadotride (3,4), to prevent the cocaine-induced upregulation of MOR mRNA in n. acc. has been examined. Also, regulation of MOR mRNA following chronic administration of the DA agonists, SKF 38393, R(+)-6-Bromo-APB hydrobromide, or bromocriptine, has been studied. Male Sprague-Dawley rats were treated for 3 days with saline, cocaine, the DA receptor agonists or antagonist delivered by osmotic minipump. Expression of MOR mRNA in n. acc. was estimated by quantitative competitive polymerase chain reaction (PCR) assays following reverse transcription. Nafadotride (1.0 mg/kg/day) prevented the cocaine-induced upregulation of MOR mRNA in n. acc. When administered alone, nafadotride did not change the expression of MOR mRNA. The levels of MOR mRNA were elevated in n. acc. after 3 days treatment with each of the DA agonists, SKF 38393 (4.0 mg/kg/day), R(+)-6-Bromo-APB hydrobromide (4.0 mg/kg/day), or bromocriptine (5.0 mg/kg/day). Thus, DA agonists mimick the effect of cocaine on the expression of MOR mRNA in n. acc. These data confirm the involvement of dopaminergic mechanisms in the mediation of cocaine effects, indicate the comparability of actions of indirect and direct DA agonists, and point to the usefulness of cocaine as a tool to expose interaction between dopaminergic and opioid systems. The results suggest that activation of more than one type of DA receptor is required for the increased expression of MOR mRNA.

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Anahit V. Azaryan

Proteases and the emerging role of protease inhibitors in prohormone processing

Purification and Characteristics of the Candidate Prohormone Processing Proteases PC2 and PC1/3 from Bovine Adrenal Medulla Chromaffin Granules

Effect of Chronic Cocaine Treatment on μ‐ and δ‐Opioid Receptor mRNA Levels in Dopaminergically Innervated Brain Regions

The Processing Proteases Prohormone Thiol Protease, PC1/3 and PC2, and 70-kDa Aspartic Proteinase Show Preferences among Proenkephalin, Proneuropeptide Y, and Proopiomelanocortin Substrates

Mu opioid receptor mRNA in nucleus accumbens is elevated following dopamine receptor activation

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