Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

The cells of the frog pars intermedia synthesize a 36 000 (36K) protein called proopiomelanocortin (POMC). After [3H]glucosamine incorporation, separation of newly synthesized products by SDS-polyacrylamide gel electrophoresis showed that this 36K protein was glycosylated. Tryptic mapping revealed only one site of glycosylation and showed that the carbohydrate side-chain was located in the N-terminal region of POMC. The 36K protein was not released by the melanotrophs, but it generated, through specific intracellular proteolytic cleavage, a number of smaller peptides which were subsequently released. These peptides were identified by various methods including selective amino-acid incorporation, HPLC purification, acid-urea gel electrophoresis, tryptic and chymotryptic mapping, assay of melanotropic activity, radioimmunoassays and immunoprecipitations. Some of the newly synthesized N-terminal (18K) fragment of the POMC was secreted intact while a portion of it was further processed, via an intermediate peptide, to give mature gamma-MSH. All three of these peptides were glycosylated. In addition, the mature peptide (gamma-MSH) exhibited a low but significant melanotropic activity. The C-terminal portion of the prohormone was very rapidly processed to give des N alpha-acetyl alpha-MSH, corticotropin-like-intermediate lobe peptide (CLIP) and beta-endorphin. Authentic alpha-MSH was always absent in cellular extracts: acetylation to give rise to alpha-MSH was a late enzymatic process strictly linked to hormonal release. Since acetylation of alpha-MSH is required for full biological activity of this peptide, it is possible to conceive that this later step could be under neuroendocrine control. Using the perifusion technique we have been able to show the complexity of the control mechanisms regulating amphibian melanotrophs. It is generally accepted that the aminergic innervation of the intermediate lobe of the pituitary is involved in the hypothalamic control of melanotropin release. We have demonstrated that, in amphibians, dopamine inhibits alpha-MSH secretion through D2-type dopaminergic receptors whereas norepinephrine and (or) epinephrine stimulate alpha-MSH secretion via beta-adrenergic receptors. The existence of peptidergic fibers within parenchymal cells of the pars intermedia has been demonstrated. Evidence for TRH-containing fibers has been obtained by immunohistochemistry. Using a specific radioimmunoassay for TRH, we have confirmed the presence of TRH in the neurointermediate lobe of the frog. We have shown that TRH is a powerful MSH-releasing factor in these animals.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:[Intermediate lobe of the amphibian pituitary gland: an endocrine gland with multiple secretions and under multi-hormonal control]. 392 69

The presence of a high-molecular weight complex with acid phosphatase activity in the cytosol of human mammary tumors is reported. This complex appeared in the cytosol after tissue homogenization in the presence of dithiotreitol, with or without Triton X-100 and at acidic or neutral pH. Upon gel electrophoresis, this fraction showed only one band of enzyme activity which did not enter the fine pore gel. Lubrol or n-butanol had no apparent effect on this complex, and 8 M urea or 2% sodium dodecyl sulfate did not disaggregate this large molecule. After purification by gel filtration, ammonium sulfate precipitation and ion-exchange chromatography an apparent molecular weight or 10(6) was measured. It hydrolyzed typical acid phosphatase substrates such as p-NPP and alpha-NP, but also ATP and PPi. Only 44% inhibition was observed with L-(+)tartrate and it was still 40% active after 1 hr incubation at 60 degrees C. Reduction in the presence of SDS yielded several polypeptide bands. It was also detected in some samples of normal mammary tissues, but not in normal human placenta or liver.
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PMID:A high-molecular weight complex with acid phosphatase activity in human breast cancer. 609 19

A macromolecular aggregate of corticotropin-beta-lipotropin common precursor had been observed in ovine pituitary preparations as an excluded fraction of Sephadex G-200 gel filtration. This fraction could not penetrate a 10% gel during sodium dodecyl sulfate-polyacrylamide gel electrophoresis, when 2-mercaptoethanol or other disulfide-cleaving agents were not present in the buffer used to solubilize the protein preparation prior to the electrophoresis. On a 4.6% gel (acrylamide:bisacrylamide, 20:1), the material migrated as a diffuse band to a position between those of beta-galactosidase (Mr 130 000) and myosin (Mr 200 000). Both observations were consistent with an apparent Mr greatly in excess of that of the corticotropin-beta-lipotropin common precursor reported by many investigators. Neither 5% SDS nor 1% Triton X-100 could dissociate the macromolecular aggregate, but 2-mercaptoethanol and urea, either alone or in combination, were able to dissociate it to two main protein components, one of which was identified as corticotropin-beta-lipotropin with an apparent Mr of 34 000. The fact that urea alone could dissociate this macromolecular aggregate led us to believe that it might be a non-covalent aggregate and that 2-mercaptoethanol probably did not achieve the dissociation through the cleavage of an interchain disulfide bond but by bringing about conformational changes as a result of reduction of intrachain disulfide bonds so that aggregation became unfavorable. Moreover, the dissociation by urea or by 2-mercaptoethanol was found to be irreversible. The origin of the macromolecular aggregate of corticotropin-beta-lipotropin common precursor remains obscure.
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PMID:Characterization of a macromolecular aggregate of ovine pituitary corticotropin-beta-lipotropin common precursor. 626 48

Acid extracts of porcine pancreas acetone powders (but not of other tissues) have been shown to contain material which will react firstly in a radioimmunoassay for beta-endorphin, and secondly, compete with 3H-Naloxone and 3H-enkephalinamide in the radio-receptor assay. This material had a molecular weight of approximately 7,000 as judged by both P-10 and G-50 exclusion chromatography, even in the presence of 4 M urea. The G-50 partially purified and desalted fraction demonstrated a dose-dependent analgesia in mice and also influenced mouse behavior in vivo in a manner analogous to that produced by synthetic human beta-endorphin.
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PMID:Pancreatic beta-endorphin-like polypeptides. 627 41

1. The blood pressure, renal and metabolic effects of adrenocorticotropic hormone (ACTH) have been studied in six normotensive subjects and two patients with Addison's disease on maintenance steroid therapy. 2. In normotensive subjects, 5 days ACTH treatment (0.5 mg 12 hourly) was associated with a rise in systolic blood pressure and mean arterial pressure. There was a small rise in diastolic pressure but no consistent change in heart rate. Plasma sodium increased and plasma potassium fell. Serum creatinine and urea concentrations were unchanged. Fluid intake increased and urine output was unchanged but ACTH withdrawal was associated with a diuresis. There was an initial reduction in urinary sodium excretion and a natriuresis after ACTH withdrawal. Plasma volume and body weight rose. 3. ACTH produced increases in plasma cortisol, 11-deoxycortisol, corticosterone, deoxycorticosterone, aldosterone, 17 alpha-hydroxyprogesterone and 17 alpha,20 alpha-dihydroxyprogesterone. Plasma renin concentration fell. 4. Patients with Addison's disease showed no change in blood pressure or in any other metabolic variable studied. 5. The effects of ACTH in man resembled those found in sheep.
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PMID:Blood pressure, renal and metabolic effects of ACTH in normotensive man. 627 70

Lysates of secretory granules from rat pituitary neurointermediate lobes were incubated with [3H]arginine- or [3H]phenylalanine-labeled toad pro-opiocortin. The processed products formed were identified by immunoprecipitation with adrenocorticotropin (ACTH) and endorphin antisera and by migration behavior on acid/urea/polyacrylamide gels. Pro-opiocortin was cleaved by the proteolytic activity in the secretory granule fraction to approximately 21,000 Mr ACTH, approximately 13,000 Mr ACTH, alpha-melanotropin, 16,000 Mr NH2-terminal glycopeptide, beta-lipotropin, and an endorphin-related peptide. Characterization of this pro-opiocortin-converting activity shows that it (i) is present in membrane and soluble fractions of the granule lysates, (ii) has a pH optimum of 5.0, (iii) appears to cleave at pairs of basic amino acid residues in the precursor, and (iv) is inhibited by leupeptin, pepstatin A, and p-chloromercuribenzoate but not diisopropyl fluorophosphate, N alpha-p-tosyl-L-lysine chloromethyl ketone hydrochloride, chloroquine, or EDTA. These inhibitor studies suggest that the converting-enzyme activity is due to an acid thiol, arginyl protease, distinct from any known cathepsin B-like activity.
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PMID:Characterization of pro-opiocortin-converting activity in purified secretory granules from rat pituitary neurointermediate lobe. 627 79

Mouse pituitary neurointermediate lobes were pulse-incubated in [3H] arginine or [3H] lysine for 10 min and then chase-incubated for periods 0 to 4h. The labeled peptides from the lobes were analysed by immunoprecipitation with specific antisera, and thereafter, by acid-urea polyacrylamide gel electrophoresis. Using this paradigm, the synthesis of a prohormone common to adrenocorticotropin (ACTH) and endorphin was detected in 10 min pulse labeled lobes. Following a chase period, processing of the prohormone to several forms of ACTH (mol. wt. 25000, 23000, and 13000), beta-lipotropin and beta-endorphin was observed. To determine the intracellular site of processing of the prohormone, subcellular fractionation studies of labeled lobes were carried out. Analysis of the fractions from the pulse-labeled lobes revealed that the newly synthesized labeled prohormone was primarily localized in a granule-enriched fraction. In lobes that were pulsed and then chase-incubated for 1 h, there was a decrease in the amount of prohormone and an appearance of processed products in the granule-enriched fraction. In another paradigm, where the secretory granule-fraction was isolated from pulse-labeled lobes and then incubated in vitro for 6 h at pH 5.5, processing of the endogenous labeled prohormone within the isolated granule fraction was observed. These data suggest, that in the mouse neurointermediate lobe, the ACTH/endorphin prohormone (pro-opiocortin) is rapidly packaged into secretory granules after synthesis and processed intragranularly.
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PMID:Evidence for intragranular processing of pro-opiocortin in the mouse pituitary intermediate lobe. 627 80

Neurosecretory granules (NSGs) from neural lobes of bovine pituitary glands were isolated in a highly purified form by metrizamide-sucrose gradient centrifugation. The purified NSGs were lysed and centrifuged, and the supernatants were further fractionated by gel filtration on Sephadex G-75. Proopiocortin-converting enzyme activity was assayed by incubation of [3H]arginine- or [3H]phenylalanine-labeled toad proopiocortin with NSG supernatant fractions. The processed products were identified by immunoprecipitation with ACTH and beta-endorphin antisera, followed by acid-urea gel electrophoresis. The optimum pH for the enzyme-mediated conversion was around pH 5.0. Conversion of toad proopiocortin by NSG converting enzyme activity was inhibited by leupeptin, antipain, p-chloromercuribenzoate, and pepstatin A, but not by diisopropyl fluorophosphate, EDTA, or N-alpha-p-tosyl-L-lysine-chloromethyl ketone HCl. The results suggest that the proopiocortin-converting enzyme activity in bovine neurosecretory granules is due to an acid-thiol protease which may contain secondary hydrophobic binding sites that are involved in substrate recognition.
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PMID:Proopiocortin-converting enzyme activity in bovine neurosecretory granules. 629 Jan 88

The influence of glycosylation of a prohormone, pro-opiocortin, on its processing by intermediate (pituitary) lobe converting enzyme activity in vitro was studied. [3H]-arginine-labeled glycosylated and non-glycosylated pro-opiocortins were isolated from untreated, and tunicamycin treated toad neurointermediate lobes, respectively, after pulse-labeling in [3H]-arginine containing incubation media. These labeled precursors were then incubated at 37 degrees C in the presence of pro-opiocortin converting enzyme activity derived from rat intermediate lobe (pituitary) secretory granule lysates. The rates of conversion of the glycosylated and nonglycosylated pro-opiocortins to smaller peptide products, in vitro, were similar. Analysis of the peptide products by immunoprecipitation with ACTH and beta-endorphin antisera, and subsequent electrophoresis on acid-urea gels, indicate a comparable processing in vitro of the two forms of pro-opiocortin substrate. The only difference was that the normally glycosylated peptide products derived from glycosylated pro-opiocortin (i.e., 13K ACTH, 21K ACTH, and the 16K glycopeptide) differed in their gel electrophoretic mobilities from their counterparts derived from nonglycosylated prohormone, in a manner consistent with the absence of carbohydrate on the latter's peptides. These data show that glycosylation of the prohormone does not influence its processing in vitro by the converting enzyme activity.
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PMID:Processing of normal and non-glycosylated forms of toad pro-opiocortin by rat intermediate (pituitary) lobe pro-opiocortin converting enzyme activity. 629 38

Lysates from purified secretory granules of rat anterior pituitary glands were incubated with [3H]phenylalanine or [3H]arginine-labeled toad proopiocortin. The processed products formed were identified by immunoprecipitation with ACTH and beta-endorphin antisera, and by comigration with known markers on acid-urea polyacrylamide gels. Proopiocortin was cleaved by the secretory granule lysate primarily to 21,000 mol wt ACTH, 13,000 mol wt ACTH, 16,000 mol wt NH2-terminal glycopeptide, beta-lipotropin, a beta-endorphin-like peptide, and beta-endorphin. Characterization of the anterior pituitary proopicortin-converting activity shows that it: (1) cleaves specifically at the peptide bond on the carboxy side of the lysine-arginine residues of proopiocortin, (2) has a pH optimum in the acidic range, (3) is present in membrane and soluble fractions of the granule lysate, and (4) is inhibited by leupeptin, pepstatin A, and 2,2' dithiodipyridine, but not by p-chloromercuribenzoate, diisopropyl fluorophosphate, N alpha-p-tosyl-L-lysine chloromethyl ketone hydrochloride, chloroquine, L-1-tosylamide-2-phenylethyl-chloromethyl ketone, or EDTA.
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PMID:Characterization of proopiocortin converting activity in rat anterior pituitary secretory granules. 629 11


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