UNIPROT:P01189 - FACTA Search

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Query: UNIPROT:P01189 (beta-endorphin)
21,003 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

An overview of in situ hybridization mapping studies comparing the brain distributions of mRNA transcripts encoding the proprotein convertase Furin, PC1 and PC2 in relation to transcripts encoding carboxypeptidase H (CPE) and peptidylglycine alpha-amidating monooxygenase (PAM) is presented. Furin mRNA was detected in both neurons and non-neuronal cells throughout all brain areas. The cellular localization of PC1 and PC2 was primarily neuronal, with PC2 generally more widely distributed, although many regional variations were detected. The detection of specific combinations of the convertases, CPE and PAM in peptide-rich brain regions suggests that specific enzymatic pathways are involved in neuropeptide processing. Results are also described from a series of functional studies on the processing of pro-opiomelanocortin (POMC) in a heterologous neuronal cell line, Neuro-2A, which expresses low levels of PC2 mRNA but no detectable PC1 mRNA. Two contrasting POMC-processing patterns were observed: one where the precursor was processed at a number of cleavage sites to produce several peptides, and another where POMC was processed at a single cleavage site to produce beta E only. If PC2 is responsible for POMC processing in transfected cells, this enzyme may have favored cleavage of the amino terminal-processing site above other sites in the latter type of cell line.
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PMID:Neuroanatomical and functional studies of peptide precursor-processing enzymes. 184 82

Atrial natriuretic factor (ANF) is stored within atrial myocyte secretory granules as pro-ANF (ANF-(1-126] and is proteolytically processed co-secretionally C-terminal to a single basic amino acid to form ANF-(1-98) and the bioactive product ANF-(99-126). Pro-ANF is also expressed in certain non-cardiac neuroendocrine cell types (e.g. brain, adrenal). Although the relatively low levels of the peptide in these cell types have precluded detailed processing and secretion studies using cultured cells, some work with tissue extracts suggests that pro-ANF is pre-secretionally processed between or C-terminal to Arg101-Arg102 in such cells. In order to assess whether cultured non-cardiac endocrine cells process pro-ANF pre- or co-secretionally, and to establish whether both paired and single basic amino acids can serve as cleavage sites, transfection studies were carried out using the adrenocorticotropic hormone (ACTH)-producing pituitary tumor cell line AtT-20/D-16v. These cells normally cleave pro-ACTH/endorphin pre-secretionally at selected, but not all, pairs of basic amino acids to a variety of product peptides. A prepro-ANF expression plasmid was constructed and transfected into the AtT-20 cells. The resulting ANF/AtT-20 cell clone selected for this study expressed ACTH at levels similar to the untransfected wild type cells and secreted immunoreactive ANF-related material at a rate of approximately 1 fmol/min/10(5) cells, which was about 10% the rate of ACTH secretion. The rates of secretion of both ANF and ACTH could be increased 3-5-fold with a variety of known AtT-20 cell secretagogues including phorbol esters and the beta-adrenergic agonist, isoproterenol, thus indicating that both peptides were routed through regulated secretory pathways. Utilizing a combination of specific antisera directed against various regions of pro-ANF, size exclusion and reversed phase high performance liquid chromatography, and peptide mapping, it was shown that the ANF/AtT-20 cells contained and secreted the bioactive peptide ANF-(103-126) and -(1-97). These results indicate that the ANF/AtT-20 cells specifically cleave pro-ANF pre-secretionally at the same single basic site used by cardiac tissue; this single basic cleavage is apparently followed by removal of Arg98 by carboxypeptidase H. It is also apparent that the cells can cleave at the sole paired basic site in pro-ANF, which is the probable cleavage site used by neurons and some other endocrine cells that express low levels of the prohormone.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Rat pro-atrial natriuretic factor expression and post-translational processing in mouse corticotropic pituitary tumor cells. 216 25

A hypothesis was examined that carboxypeptidase H (CpAse H), which is known to catalyse the release of lysine and arginine from the C-terminus of peptides, can also release histidine, tyrosine, and phenylalanine. Synthetic peptides terminating in -His-Lys or -Tyr-Lys were used as model substrates for the enzyme and amino acid analysis was employed to detect release of the terminal amino acids. With N-acetyl-beta-Ala-Asn-Ala-His-Lys and N-acetyl-beta-Ala-Asn-Ala-Tyr-Lys, which correspond to intermediates in the processing of porcine and human beta-endorphin, lysine was removed rapidly and quantitatively but no release of histidine or tyrosine could be detected. To allow more sensitive analysis, radiolabelled substrates were employed and the amounts of the products formed on incubation with CpAse H were determined after separation by ion-exchange chromatography. With 125I-D-Tyr-Ala-His-Lys-Lys as substrate at pH 5.7, very small amounts of D-Tyr-Ala were released; the main product was D-Tyr-Ala-His. At pH 5.0 the release of histidine from 125I-D-Tyr-Ala-His took place 6,000 times more slowly than the release of lysine from 125I-D-Tyr-Ala-Lys. When the tripeptides were incubated at pH 5 with porcine pituitary secretory granules, the lysine was released rapidly but no release of histidine could be detected. The results demonstrate that CpAse H catalyses the release of C-terminal histidine with great difficulty.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Catalysis of slow C-terminal processing reactions by carboxypeptidase H. 252 98

Developmental patterns for rat pancreatic opioid peptides and islet hormones were studied from gestational day 20 through adulthood. Fetal tissue was obtained as well as pancreas at birth (day 0), and postnatal days 3, 7, 14, and 21, and 7 weeks. The hormones measured included insulin, glucagon, and somatostatin. The opioids measured were beta-endorphin, Met- and Leu-enkephalins, and the high molecular weight enkephalin precursors. Pancreata were pooled as necessary and extracted (acid alcohol, or hot acetic acid), and opioids were further purified on reversed-phase C-18 (Sep-pak) cartridges. In all instances measurements were made by radioimmunoassays. Precursor peptides were first digested (with trypsin and carboxypeptidase B) prior to immunoassay. All opioids and hormones except the precursors for enkephalins showed a well-defined surge in pancreatic concentration during the first postnatal week. In contrast, the precursors had the highest concentration in the fetus, and by the seventh day of life had decreased by greater than 50%. This progressive decrease may represent maturation of the enkephalin convertase and trypsin-like enzymes in the islets. The opioid and hormonal surges that we have described are similar to the surge in islet concentration of thyroid-releasing hormone (TRH) previously described in neonatal rat islets. It is suggested that these postnatal alterations in opioid and hormone concentration relate to a specific function in the development of the endocrine pancreas.
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PMID:Developmental patterns for pancreatic opioids in the rat. 253 May 76

Twice-daily intracerebroventricular (i.c.v.) injections for three days of increasing doses of guanidino-ethyl-mercapto-succinic acid (GEMSA) produced a dose-dependent decrease in methionine-enkephalin- and leucine-enkephalin levels in rat hypothalami. GEMSA is a specific and potent inhibitor of a carboxypeptidase B-like processing enzyme, referred to as enkephalin convertase (EC). The administration of GEMSA (0.1 microgram) resulted in more than 50% reduction in the levels of these two opioid peptides. However, no changes occurred in the hypothalamic content of beta-endorphin or dynorphin1-17. Moreover, in GEMSA-treated animals, hypothalamic luteinizing hormone-releasing hormone and serum luteinizing hormone levels were increased by 75%. Serum prolactin concentrations were decreased by 60% at the same time. Subcutaneous naloxone administration resulted in a 75% elevation of serum LH concentrations in control animals whereas GEMSA-treated animals showed a blunted response, most likely due to a decreased amount of opioid-active peptides. The present study is in agreement with the putative role of EC in the processing of the multivalent opioid precursor (proenkephalin A) in the rat hypothalamus. The enzyme inhibition by GEMSA may result in a reduced enkephalinergic tone, which is then accompanied by an altered endocrine status.
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PMID:In vivo modulation of rat hypothalamic opioid peptide content by intracerebroventricular injection of guanidinoethylmercaptosuccinic acid (GEMSA): possible physiological role of enkephalin convertase. 266 3

Three tiers of processing have been investigated in the reactions that transform prohormones into their mature end products. Evidence is presented that the proteolytic reactions that convert lipotropin into shortened forms of beta-endorphin take place in individually distinct stages. After these cleavages have occurred, the removal of basic residues by carboxypeptidase H and amidation of the products are effected by independent reactions which do not synergise. Experiments are also described which show that the amidating enzyme can accept certain imino acids as substrates and utilises a mechanism that involves hydroxylation; it is implicit that peptide amidation proceeds by a similar mechanism. These results point to a general concept that pro-hormone processing involves consecutive reactions which take place in a predetermined order.
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PMID:Processing reactions in the later stages of hormone activation. 296 53

Two variant cell lines were recently established from parent AtT-20 cells. Whereas HYA.15.10.T.2 have a reduced level of secretory granules, HYA.15.6.T.3 are completely devoid of both the regulated pathway of secretion and of dense-core secretory granules. AtT-20 cells normally express the processing enzymes PC1, PC2, furin, carboxypeptidase E, and peptidylglycine alpha-amidating monooxygenase, as well as proopiomelanocortin, chromogranin B, and 7B2. We measured the expression of these mRNAs in both variant cell lines. Although some differences in mRNA level were noted, HYA.15.10.T.2 and HYA.15.6.T.3 cell lines maintained their expression of the processing enzymes and of 7B2. Furthermore, PC1 and PC2 were shown to be functionally active in the HYA.15.6.T.3 cells. In contrast, proopiomelanocortin and chromogranin B mRNA levels were no longer detectable in HYA.15.6.T.3 cells. Interestingly, stimulation of the HYA.15.6.T.3 cells with cAMP restored proopiomelanocortin mRNA, beta-endorphin immunoreactivity, and dense-core granules. Furthermore, at the ultrastructural level, beta-lipotropin immunoreactivity was detected in granules of cAMP-induced HYA.15.6.T.3 cells. Finally, depolarization of cAMP-induced HYA.15.6.T.3 cells with 56 mM potassium chloride resulted in a marked increase in the release of beta-endorphin immunoreactivity. These observations demonstrate that cAMP restores the regulated pathway of secretion in HYA.15.6.T.3 cells, which under untreated conditions do not demonstrate regulated release. These variant cell lines are unique models to understand better the relationship of the regulated pathway and the expression of the processing enzymes.
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PMID:Maintained PC1 and PC2 expression in the AtT-20 variant cell line 6T3 lacking regulated secretion and POMC: restored POMC expression and regulated secretion after cAMP treatment. 786 35

A proposed mechanism for sorting secretory proteins into granules for release via the regulated secretory pathway in endocrine-neuroendocrine cells involves binding the proteins to a sorting receptor at the trans-Golgi network, followed by budding and granule formation. We have identified such a sorting receptor as membrane-associated carboxypeptidase E (CPE) in pituitary Golgi-enriched and secretory granule membranes. CPE specifically bound regulated secretory pathway proteins, including prohormones, but not constitutively secreted proteins. We show that in the Cpe(fat) mutant mouse lacking CPE, the pituitary prohormone, pro-opiomelanocortin, was missorted to the constitutive pathway and secreted in an unregulated manner. Thus, obliteration of CPE, the sorting receptor, leads to multiple endocrine disorders in these genetically defective mice, including hyperproinsulinemia and infertility.
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PMID:Carboxypeptidase E is a regulated secretory pathway sorting receptor: genetic obliteration leads to endocrine disorders in Cpe(fat) mice. 901 8

Cpefat mice carry a mutation in the carboxypeptidase E/H gene which encodes an exopeptidase that removes C-terminal basic residues from endoproteolytically cleaved hormone intermediates. These mice have endocrine disorders including obesity, infertility, and hyperproinsulinemia-diabetes syndrome, but the etiology remains an enigma. Because studies have identified membrane carboxypeptidase E as a sorting receptor for targeting prohormones to the regulated secretory pathway for processing and secretion, the intracellular routing and secretion of pro-opiomelanocortin/adrenocorticotropin and growth hormone from anterior pituitary cells were investigated in Cpefat mice. In Cpefat mice, pro-opiomelanocortin was accumulated 24-fold above normal animals in the pituitary and it was poorly processed to adrenocorticotropin. Furthermore, pro-opiomelanocortin was secreted constitutively at high levels, showing no response to stimulation by corticotropin-releasing hormone. Similarly, growth hormone release was constitutive and did not respond to high K+ stimulation. Both pro-opiomelanocortin and growth hormone levels were elevated in the circulation of Cpefat mice versus normal mice. These data provide evidence that the lack of carboxypeptidase E, the sorting receptor, results in the intracellular misrouting and secretion of pro-opiomelanocortin and growth hormone via the constitutive pathway in the pituitary of Cpefat mice.
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PMID:Intracellular misrouting and abnormal secretion of adrenocorticotropin and growth hormone in cpefat mice associated with a carboxypeptidase E mutation. 914 34

Human obesity has an inherited component, but in contrast to rodent obesity, precise genetic defects have yet to be defined. A mutation of carboxypeptidase E (CPE), an enzyme active in the processing and sorting of prohormones, causes obesity in the fat/fat mouse. We have previously described a women with extreme childhood obesity (Fig. 1), abnormal glucose homeostasis, hypogonadotrophic hypogonadism, hypocortisolism and elevated plasma proinsulin and pro-opiomelanocortin (POMC) concentrations but a very low insulin level, suggestive of a defective prohormone processing by the endopeptidase, prohormone convertase 1 (PC1; ref. 4). We now report this proband to be a compound heterozygote for mutations in PC1. Gly-->Arg483 prevents processing of proPC1 and leads to its retention in the endoplasmic reticulum (ER). A-->C+4 of the intro-5 donor splice site causes skipping of exon 5 leading to loss of 26 residues, a frameshift and creation of a premature stop codon within the catalytic domain. PC1 acts proximally to CPE in the pathway of post-translational processing of prohormones and neuropeptides. In view of the similarity between the proband and the fat/fat mouse phenotype, we infer that molecular defects in prohormone conversion may represent a generic mechanism for obesity, common to humans and rodents.
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PMID:Obesity and impaired prohormone processing associated with mutations in the human prohormone convertase 1 gene. 920 82

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