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)

A rat brain polyribosomal protein with an apparent Mr of 30 000, designated pp30, was further characterized. The protein was identified by its phosphorylation by an endogenous protein kinase sensitive to both corticotropin and spermine. Two-dimensional separation of a polyribosomal fraction was applied, combining non-equilibrium pH-gradient-gel electrophoresis in the first and sodium dodecyl sulphate/polyacrylamide-gel electrophoresis in the second dimension. In this system, pp30 was separated into at least five defined phosphoprotein spots. Pulse-labelling with [gamma-32P]ATP followed by a chase for various time periods with excess unlabelled ATP resulted in a shift of the distribution of radioactivity and protein staining along the spots towards the anode. This suggests that the various spots of pp30 may represent multiple phosphorylation states. Limited proteolysis of the five spots with three different proteinases resulted in the same one-dimensional peptide maps with a given proteinase, indicating that all five spots represent different forms of a single phosphoprotein. Inhibition of the overall phosphorylation of pp30 by corticotropin or spermine was accompanied by a shift in the recovery of labelled phosphate towards spots nearer the cathode. Immunoblotting with monoclonal antibodies directed against ribosomal protein S6 stained only one band, a protein that had an apparent Mr of 34 000 and was clearly distinct from pp30.
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PMID:Multiple phosphorylation of pp30, a rat brain polyribosomal protein, sensitive to polyamines and corticotropin. 609 65

This study describes effects of various peptides, neurotransmitters and cyclic nucleotides on brain polyphosphoinositide metabolism in vitro. The interconversion of the polyanionic inositol phospholipids was studied by incubation of a lysed crude mitochondrial/synaptosomal fraction with [gamma-32P]-ATP. The reference peptide ACTH1-24 stimulated the formation of radiolabelled phosphatidylinositol 4,5-diphosphate (TPI) and inhibited that of phosphatidic acid (PA). Substance P inhibited both TPI and PA labelling, whereas beta-endorphin inhibited that of PA without any effect on TPI. Morphine had no effect at any concentration tested, whereas high concentrations of naloxone inhibited the labelling of both PA and TPI. Naloxone did not counteract the effects of ACTH1-24. The other peptides tested (lysine 8-vasopressin and angiotensin II) were without any effect. Under the conditions used, adrenaline, noradrenaline and acetylcholine did not affect the labelling of the (poly)phosphoinositides. Both dopamine and serotonin, however, dose-dependently inhibited the formation of radiolabelled TPI and PA. Low concentrations of cAMP stimulated TPI, but higher concentrations had an overall inhibitory effect on the labelling of TPI, PA and especially phosphatidylinositol 4-phosphate (DPI). The cyclic nucleotide did not mediate or counteract the effects of ACTH, and cGMP was without any effect. These results are discussed in the light of current ideas on the mechanism of action of neuropeptides.
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PMID:Polyphosphoinositide metabolism in rat brain: effects of neuropeptides, neurotransmitters and cyclic nucleotides. 612 17

1. Alterations in phosphofructokinase properties can be reproducibly seen in tissue extracts prepared and rapidly assayed after exposure of rat adipocytes to hormones. 2. Noradrenaline, corticotropin or isoprenaline (isoproterenol; beta-adrenergic agonist) decreased the activity measured with high fructose 6-phosphate concentrations (3--6 mM), but increased activity measured with lower concentrations of this substrate (0.3--0.9 mM). Noradrenaline decreased the Vmax. and the concentration of fructose 6-phosphate that gave half the Vmax.. 3. Insulin opposed the actions of noradrenaline and itself increased phosphofructokinase activity. 4. The effect of noradrenaline appeared to be exerted through a beta- rather than an alpha-type of adrenoceptor. 5. The effects of noradrenaline to decrease phosphofructokinase activity at high [fructose 6-phosphate] and to increase activity at low [fructose 6-phosphate] could be rapidly reversed in cells by addition of the beta-blocker propranolol. 6. The effect of noradrenaline seen at low [fructose 6-phosphate] could be abolished by homogenization of cells in buffer containing albumin or reversed by brief incubation of tissue extracts with albumin, suggesting that this effect of the hormone is due to the association of some ligand with the enzyme.
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PMID:Rapid modulation of adipocyte phosphofructokinase activity by noradrenaline and insulin. 621 52

The regulatory role of phosphorylation of adrenal proteins as it relates to the mechanism of action of adrenocorticotropic hormone (ACTH) has been studied. ACTH, cyclic AMP, or cyclic GMP were added to rat adrenal quarters which had been preincubated with [32P]phosphate. 32P-labeled proteins in subcellular fractions were identified after separation by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and autoradiography. The addition of ACTH consistently resulted in the phosphorylation and dephosphorylation of specific adrenal proteins and produced characteristic phosphorylation patterns (autoradiographs) for each subcellular fraction which were very different from control. The changes in phosphorylation of proteins preceded corticosterone production. Also, the degree of phosphorylation of these specific proteins followed a dose-response relationship with ACTH which correlated well to the dose-response for corticosterone production. When cAMP was added to adrenal quarters, the resulting phosphorylation changes were identical to those induced by ACTH. When cGMP was added to adrenal quarters, the resulting phosphorylation patterns were very similar to those produced by control incubations. ACTH or cAMP stimulated corticosterone production 6-fold when compared to control or cGMP-treated tissue. These results suggest that tropic action of ACTH is mediated by cAMP by both phosphorylation and dephosphorylation of specific adrenal proteins.
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PMID:On the mechanism of action of adrenocorticotropic hormone. The role of ACTH-stimulated phosphorylation and dephosphorylation of adrenal proteins. 624 17

The phosphorylation of rat adrenal protein components in response to adrenocorticotropin has been studied in adrenal quarters, isolated cells, and in vivo. In adrenal quarters, adrenocorticotropic hormone (ACTH)-stimulated phosphorylation or dephosphorylation of proteins was not affected by the presence of protein synthesis inhibitors despite a total inhibition of steroidogenesis. (The term dephosphorylation refers to an apparent decrease in the labeling of a particular protein with 32P at various times after the addition of ACTH. This may be due to enzymatic removal of phosphate or protein degradation or complexation of this protein with another cellular component.) Studies with isolated cell preparations identified several proteins that are phosphorylated or dephosphorylated in response to hormone. These changes in phosphorylation were also observed in adrenal quarters and correlated well with ACTH-stimulated steroidogenesis as determined by temporal analysis and dose-response studies of corticosterone production. In vivo injection of male hypophysectomized rats with [32P]phosphate and ACTH demonstrated changes in the labeling of six adrenal proteins. Many of the proteins phosphorylated in vivo were also demonstrated to be phosphorylated in both in vitro systems. Finally, the injection of a physiological dose of ACTH appeared to selectively activate the type I cAMP-dependent protein kinase within the microsomal fraction as determined by the binding of a photoaffinity-labeled reagent. These results suggest that alterations in phosphorylation of adrenal proteins in response to ACTH is proximal to or independent of the obligatory role of protein synthesis in acute steroidogenesis.
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PMID:The phosphorylation of adrenal proteins in response to adrenocorticotropic hormone. 626 22

Phosphorylated forms of corticotropin[ACTH (1-39)], corticotropin-like intermediary lobe peptide[CLIP, ACTH (18-39)], and the common precursor for ACTH and beta-lipotropin (beta-LPH) have been identified in extracts of rat pituitaries, 32P-Labeled inorganic phosphate was successfully incorporated into ACTH (1-39), CLIP, and the ACTH/beta-LPH precursor in rat neurointermediary lobe explants and into ACTH (1-39) in isolated rat anterior pituitary cells. After peptidase digestion of the labeled CLIP and ACTH, the radioactive phosphate was recoverable as O-phosphoserine. The serine residue at position 31 was the only amino acid found to be phosphorylated in CLIP and ACTH (1-39). The unphosphorylated forms of both peptides were also synthesized. The demonstration of he incorporation of [32P]phosphate into CLIP, ACTH (1-39), and the ACTH/beta-LPH precursor is consistent with the hypothesis that, within the rat intermediary lobe, phosphorylated CLIP is derived from a phosphorylated form of the common precursor, with phosphorylated ACTH (1-39) acting as a biosynthetic intermediate.
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PMID:Biosynthesis of phosphorylated forms of corticotropin-related peptides. 627 71

1. Effects of corticotropin-(1--24)-tetracosapeptide on the endogenous phosphorylation of proteins and lipids were studied in a membrane/cytosol fraction prepared from a lysed crude mitochondrial/synaptosomal fraction. 2. The labelling of proteins and lipids was monitored by incubation of the subcellular fraction for 10s with [gamma-32P]ATP. 3. The phosphorylation of proteins was dose-dependently inhibited by the peptide (40% of control incubations at 100 microM-corticotropin). 4. Of the membrane phospholipids only phosphatidylinositol phosphate, phosphatidylinositol bisphosphate and phosphatidic acid became labelled. Corticotropin dose-dependently increased the formation of phosphatidylinositol bisphosphate and inhibited the production of phosphatidic acid (470% and 50% respectively of control incubations, at 100 microM of the peptide) and had no effect on phosphatidylinositol phosphate. 5. Phosphatase activity was observed to act on phosphatidylinositol bisphosphate, phosphatidylinositol phosphate and phosphoprotein but not on phosphatidic acid. 6. Corticotropin interacted with the kinases rather than with the phosphatases. 7. The formation of phosphatidylinositol bisphosphate and phosphatidic acid was maximal at 1--10mM-Mg2+ in the absence of Ca2+, and the production of phosphatidylinositol phosphate was maximal at 30mM-Mg2+. 8. The basal value of lipid phosphorylation decreased with increasing Ca2+ concentration. 9. Ca2+ abolished the effect of corticotropin on phosphatidylinositol bisphosphate formation (470%, 190% and 100% of control incubations at respectively 0, 0.1 and 1 mM-Ca2+). 10. The data provide evidence that the effects of corticotropin on protein phosphorylation and on polyphosphoinositide metabolism in brain membranes are related.
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PMID:Corticotropin-(1--24)-tetracosapeptide affects protein phosphorylation and polyphosphoinositide metabolism in rat brain. 627 27

We studied the effects of adrenocorticotropin (ACTH) and cycloheximide on adrenal enzymes involved in phosphatidate synthesis. Treatment of rats in vivo with ACTH induced a rapid increase in phosphatide synthesis from diglyceride and ATP in adrenal homogenates, and cycloheximide treatment prevented this increase if given before ACTH and rapidly reversed the increase if given after ACTH. The stimulatory effect of ACTH appeared to be largely due to an increase in diglyceride substrate, as kinase activity was not altered. The inhibitory effect of cycloheximide, on the other hand, appeared to be due to a decrease in diglyceride kinase activity. Neither ACTH nor cycloheximide treatment had any effect on the activity of glycerol-3'-phosphate acyltransferase or phosphatidate phosphatase. Our findings suggest that (a) ACTH increases the flow of phospholipid (and their levels) throughout the entire circular pathway, i.e., phosphatidate leads to CDP-diacylglycerol leads to inositides leads to diglycerides leads to phosphatidate, and (b) a labile protein may serve to allow entry into a recycling of diglyceride in this pathway. In addition, since cycloheximide blocked carbachol-induced increases in pancreatic and salivary glandular phosphatidate synthesis resulting from phosphatidylinositol hydrolysis and consequent diglyceride generation, the putative labile protein may have widespread importance.
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PMID:Effects of adrenocorticotropin and cycloheximide on adrenal diglyceride kinase. 627 34

ATPase activity (E.C. 3.6.1.3.) has been studied by electron microscopy with the help of several cytochemical techniques on Eigenmannia virescens electrocytes. Incubation was carried out with in two different media containing paranitrophenyl phosphate (p-NPP) or adenosine triphosphate (ATP) as substrate. With p-NPP the phosphate freed is captured at alkaline pH, either by strontium chloride or by lead citrate. With ATP the phosphate freed is captured at a pH close to neutrality by the lead nitrate. NaK ATPase activity was only demonstrated with the medium containing ATP; the positive results obtained with this technique were sensitive to ouabain. The enzyme is situated both on the membrane of the posterior face which is innervated and on that of the anterior face of the electrocytes. The cytoplasm of the anterior face is occupied by a strong concentration of tubules on whose membranes the enzyme is also present. The localisation of the enzyme on the tubules can explain biochemical results which indicate that 70% of the total NaK ATPase of the electrolytes is situated at the level of the anterior face.
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PMID:The cytochemical demonstration of NaK dependent adenosine triphosphatase at electrocyte level in Eigenmannia virescens (Gymnotidae). 629 6

The purpose of the present experiments was to compare the effects on phosphatidylinositol metabolism of agents stimulating aldosterone secretion. Glomerulosa cells, isolated from rat adrenals, were incubated in the presence of one of the following stimuli: angiotensin II, elevated potassium concentration, corticotropin, dibutyryl cyclic AMP and prostaglandin E2. Of all these substances, only angiotensin II stimulated the incorporation of [32P]phosphate into phosphatidylinositol. The effect was already detected 2.5 min and was still maintained 60 min after the onset of stimulation. A slight enhancement of the incorporation into other phospholipids was observed in the first minutes of stimulation. Cycloheximide abolished the effect of angiotensin II on aldosterone production, but not on phosphatidylinositol synthesis. In cells prelabelled with [32P]phosphate, radioactivity in phosphatidylinositol relative to that in other phospholipids decreased in response to angiotensin II within 5 min. This indicates that angiotensin II induces a specific breakdown of phosphatidylinositol. Corticotropin failed to enhance the incorporation of [32P]phosphate into phosphatidylinositol and other phospholipids in isolated fasciculate-reticularis cells. The results suggests that although both angiotensin II and potassium are presumed to act through changes in calcium metabolism, angiotensin alone generates the calcium signal by increased phosphatidylinositol turnover.
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PMID:Control of phosphatidylinositol turnover in adrenal glomerulosa cells. 629 98

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