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)

Vasopressin (VP) and angiotensin II (AT II) stimulate the production of inositol phosphates (IP) in rat glomerulosa cells. Guanosine 5'-[gamma-thio]triphosphate (GTP[S]), but not VP or AT II, stimulates IP production in a myo-[3H]inositol-prelabelled glomerulosa-cell membrane preparation. In combination with GTP[S], these hormones potentiate the response to GTP[S], indicating the existence of a G-protein involved in the coupling of the VP and AT II receptor with the phospholipase C. ADP-ribosylation with pertussis toxin (IAP) revealed the specific labelling of a single molecule of 41 kDa. No significant inhibition of VP- or AT II-stimulated IP accumulation was detected in intact cells when the whole 41 kDa molecule was endogenously ADP-ribosylated by IAP treatment. On the contrary, when glomerulosa cells were infected with cholera toxin (CT), both the VP- and AT II-stimulated IP accumulations were inhibited in a dose-dependent manner. Yet these effects were partial even at high concentrations of CT, and could not be related to the ADP-ribosylation of 'alpha s' molecules. Similarly, when the cells were infected with 1 microgram of CT/ml, the specific binding of VP and AT II decreased by 50-60%. Such results may signify that the treatment primarily affects the densities of the hormone receptors. When glomerulosa cells were incubated for 15 h in the presence of 10 nM-corticotropin (ACTH), a condition in which the intracellular concentration of cyclic AMP was increased 3-fold, the maximum IP response to 0.1 microM-VP or -AT II was decreased by 50%. When similar experiments were carried out only after a 15 min incubation period with the same concentration of ACTH, the increase in cyclic AMP was more pronounced, but no inhibition of hormone-induced IP accumulation was observed. Altogether, these results may suggest that CT exerts its action on the VP- or AT II-sensitive phospholipase C systems via a prolonged increase in intracellular cyclic AMP.
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PMID:Cholera-toxin and corticotropin modulation of inositol phosphate accumulation induced by vasopressin and angiotensin II in rat glomerulosa cells. 284 33

The reports of Miyanohara et al. (1986) and Murphy et al. (1986) were the first to describe the genetic construction, expression, and receptor-specific selective toxicity of a chimaeric toxin. In the present report, we have extended these earlier observations and have shown that the fusion of a modified gene encoding IL-2 to a truncated diphtheria toxin gene also results in the expression of a biologically active chimaeric IL-2 toxin. In both instances we have used receptor-binding-domain substitution and have genetically coupled those portions of the diphtheria toxin structural gene that encode the ADP-ribosyl transferase activity of fragment A and lipid-associating domains of fragment B to modified genes which encode either the polypeptide hormone alpha-MSH or the T-cell growth factor IL-2. The chimaeric toxins expressed from these gene fusions have been shown to be selectively targeted to those eukaryotic cells that carry specific surface receptors for the ligand compounds of the hybrid. For example, in the case of the IL-2 toxin, it is clear that the selective action of this hybrid protein is based upon both its diphtheria-toxin and IL-2-related components. Following binding to the IL-2R on activated and/or malignant T-cell, IL-2 toxin is internalized by receptor-mediated endocytosis. Upon acidification of the endosome, diphtheria toxin fragment B portions of the chimaeric toxin facilitate the delivery of fragment A to the cytosol where it catalyses the ADP ribosylation of EF-2. The assembly of chimaeric toxins at the level of the gene offers several advantages over chemical linkage. Since chemical linkage of the toxophore and ligand components of the conjugate toxins requires activation of the epsilon-amino moiety of lysine residues with reagents that will allow for subsequent disulphide linkage, the precise site of coupling is generally not known. In addition, there has been considerable concern over the lability of the disulphide bond between the toxophore and ligand components in vivo due to the action of disulphide reductases. The assembly of chimaeric toxins at the level of the gene allows for precise linkage of the toxophore and ligand components. Since the linkage between the toxophore and ligand is a peptide bond, the chimaeric toxin should be stable in vivo. In addition, the genetic construction of chimaeric toxins also allows for further protein engineering through site-directed mutagenesis.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Genetic assembly and selective toxicity of diphtheria-toxin-related polypeptide hormone fusion proteins. 284 44

Somatostatin (SRIF) inhibits stimulated cyclic AMP accumulation and adrenocorticotropin (ACTH) release from mouse anterior pituitary tumor cells (AtT-20/D16-16). In order to determine whether guanine nucleotide inhibitory proteins (Ni) mediate these effects, AtT-20 cells were treated with pertussis toxin, an agent that inactivates Ni. Pertussis toxin catalyses the ADP-ribosylation of a 41,000 MW protein in membranes of AtT-20 cells. Pretreatment with pertussis toxin prevents the subsequent ability of toxin to catalyse the labeling of Ni. This effect is dependent on the time of pretreatment and is not reversible. The inhibition of SRIF of forskolin-stimulated cyclic AMP accumulation and ACTH release is prevented by pertussis toxin treatment. The blockade is dependent on the time and concentration of toxin used and is not reversible. Pertussis toxin treatment prevents SRIF from inhibiting corticotropin releasing factor and cholera toxin-stimulated cyclic AMP synthesis. The inhibition of K+ and 8-bromocyclic AMP-stimulated ACTH release by SRIF is attenuated partially by toxin treatment. The ability of forskolin and cholera toxin to stimulate cyclic AMP formation and ACTH release is enhanced by treatment of AtT-20 cells with pertussis toxin. The increased cyclic AMP response to forskolin is prevented by cycloheximide. The data indicate that Ni mediates the inhibition by SRIF of cyclic AMP formation and the ACTH release that results from adenylate cyclase stimulation.
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PMID:Pertussis toxin treatment blocks the inhibition of somatostatin and increases the stimulation by forskolin of cyclic AMP accumulation and adrenocorticotropin secretion from mouse anterior pituitary tumor cells. 285 41

Both forskolin, the activator of adenylate cyclase, and 8-bromocyclic (cAMP) increase cytosolic calcium levels (measured using Quin 2) and adrenocorticotropin (ACTH) release from a tumor cell line of the mouse anterior pituitary (AtT-20/D16-16). Somatostatin (SRIF) blocks the ACTH release response to each secretagogue but only inhibits forskolin-stimulated calcium mobilization suggesting that SRIF prevents the formation of cAMP rather than blocking the ability of cAMP to raise intracellular calcium concentrations. SRIF itself lowers intracellular calcium levels. The ACTH release response but not the rise in cytosolic calcium levels induced by the membrane-depolarizing agent K+, is blocked by SRIF, indicating that SRIF can interfere with some intracellular event, other than calcium mobilization or cAMP formation, to reduce ACTH secretion. Pertussis toxin uncouples SRIF receptors from adenylate cyclase by catalyzing the ADP-ribosylation of an inhibitory guanine nucleotide binding protein (Ni) in AtT-20 cell membranes. Pretreatment of AtT-20 cells with pertussis toxin abolishes the inhibition by SRIF of the ACTH release response and of the rise in cytosolic calcium induced by forskolin. In addition, the ability of SRIF to inhibit basal calcium levels is prevented by pertussis toxin treatment. Pertussis toxin treatment also reduced the ability of SRIF to inhibit K+-evoked ACTH release. SRIF receptor binding studies using the ligand 125I-CGP-23996 revealed that pertussis toxin treatment greatly diminished the affinity of the SRIF receptor for SRIF and its structural analogs. These results indicate that, in addition to coupling SRIF receptors to adenylate cyclase, Ni is also involved in the lowering by SRIF of resting calcium levels.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Pertussis toxin blocks somatostatin inhibition of calcium mobilization and reduces the affinity of somatostatin receptors for agonists. 286 3

The D-2 dopamine receptor mediates inhibition of adenylate cyclase in rat intermediate lobe; this receptor is linked to cyclase by the inhibitory guanyl nucleotide-binding protein (Ni). The functioning of components in the inhibitory system was compared in control and pertussis toxin-treated tissues. (-)-N-n-Propylnorapomorphine ((-)-NPA), a dopamine agonist, and 5'-guanylyl imidodiphosphate (Gpp(NH)p), a nonhydrolyzable GTP analog, caused a dose-dependent inhibition of adenylate cyclase in control tissue. Pertussis toxin abolished dopamine receptor-mediated inhibition of adenylate cyclase but did not alter Gpp(NH)p-induced inhibition of cyclase. In control tissue, GTP blocked Gpp(NH)p inhibition of cyclase in the absence, but not in the presence of (-)-NPA. Following pertussis toxin treatment, GTP blocked the inhibitory effect of Gpp(NH)p either in the absence or in the presence of (-)-NPA. Pertussis toxin did not alter the number of dopamine receptors or the affinity of the receptor for [3H]spiroperidol, a dopamine antagonist. However, pertussis toxin decreased the potency of (-)-NPA in the binding assay and abolished the ability of GTP to affect agonist binding. Furthermore, pertussis toxin abolished the dopamine receptor-mediated inhibition of immunoreactive alpha-melanocyte-stimulating hormone release, and induced the ADP-ribosylation of the Mr = 41,000 subunit of Ni.
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PMID:Altered activity of the inhibitory guanyl nucleotide-binding component (Ni) induced by pertussis toxin. Uncoupling of Ni from receptor with continued coupling of Ni to the catalytic unit. 608 7

Rat bone was extracted with KCl and Triton X-100, and a tartrate-resistant acid phosphatase activity was purified by protamine sulfate precipitation, ion-exchange chromatography (CM-cellulose), and gel filtration on Sephadex G-200 according to previously described procedures. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis and silver staining demonstrated a major band with an apparent monomer molecular size of approximately 14,000 Da. The enzyme is active with p-nitrophenylphosphate (p-NPP) but exhibits a 5- to 10-fold higher affinity towards several nucleotides of which ATP and ADP are the most readily hydrolyzed substrates based on kinetic studies. Based on sensitivity towards proteolytic treatment and detergent removal, as well as pH-optimum studies, a single enzyme was found to be responsible for activity towards nucleotide phosphates as well as p-NPP. This nucleotide tri- and diphosphatase constitutes around 15% of the total acid phosphatase activity in rat bone. The activity with ATP as substrate in contrast to that with p-NPP was inhibited in a noncompetitive fashion by MgCl2, sodium metavanadate, and p-chloromercuribenzoate. Enzyme activity with p-NPP and ATP is dependent on the presence of KCl and detergent and is activated by Fe3+ and ascorbate. The reported characteristics of the enzyme suggest that it functions as a unique membrane acid ATPase.
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PMID:Purification and characterization of a vanadate-sensitive nucleotide tri- and diphosphatase with acid pH optimum from rat bone. 623 50

Cholera toxin catalyzed the ADP-ribosylation of the pituitary protein hormones thyrotropin (TSH), lutropin (LH), follitropin (FSH), human chorionic gonadotropin (hCG), and corticotropin (ACTH)1-24, and ADP-ribosylation of the basic proteins histone subfraction H1 and protamine. Casein and phosvitin, acidic nuclear proteins, did not act as acceptors for toxin-catalyzed ADP-ribosylation. The isolated TSH A and B subunits were tested for their ADP-ribose acceptor activity. The TSH A subunit showed fourfold greater ADP-ribose acceptor activity than the TSH B subunit. The ADP-ribose acceptor protein protamine was analyzed by sodium dodecyl sulfate polyacrylamide gel electrophoresis following incubation with cholera toxin under ADP-ribosylating conditions. [3H]ADP-ribose incorporated into protein from [3H]NAD migrated with the acceptor protein protamine. In the absence of added acceptor protein, the [3H]ADP-ribose incorporated into protein migrated with the A1 fragment of cholera toxin. Cholera toxin A and B subunits were isolated and tested for their ability to catalyze the transfer of ADP-ribose to protamine. The cholera toxin A subunit showed 50-fold greater ADP-ribosyltransferase activity than the B subunit. Our data indicate that a variety of adenohypophyseal hormones and regulatory proteins act as acceptors for toxin-catalyzed ADP-ribosylation. These studies may help in understanding the role of endogenous ADP-ribosyltransferases and the physiological effects of this modification of protein.
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PMID:Polypeptide hormones and chromatin-associated proteins act as acceptors for cholera toxin-catalyzed ADP-ribosylation. 625 55

Bovine thyroid membranes possess both ADP ribosyltransferase and NAD glycohydrolase activities with the same Km values for NAD and the same pH optima. In intact membranes, the ADP ribosyltransferase is limited in its extent by the amount of available membrane acceptor which can be ADP-ribosylated; in membranes solubilized with lithium diiodosalicylate, an artificial acceptor, L-arginine methyl ester, can be substituted to eliminate this limitation. The product of the ADP ribosyltransferase is a mono-ADP-ribosylated acceptor whether the intact or solubilized membrane provides the enzyme activity and whether membrane or exogenous acceptor, L-arginine methyl ester, is utilized. The intact membranes and the solubilized preparation also have an enzyme activity which can release AMP from the mono-ADP-ribosylated acceptor whether formed by the action of the membrane ADP ribosyltransferase or the A promoter of cholera toxin. The NAD glycohydrolase activity appears to represent the half-reaction of the ADP ribosyltransferase, i.e. an activity measurable substituting water for a membrane acceptor or L-arginine methyl ester. Membranes from functional rat thyroid cells in culture, i.e. cells chronically stimulated by thyrotropin and unresponsive to further additions of thyrotropin, have low ADP-ribosylation but high NAD glycohydrolase activities. In contrast, membranes from nonfunctional rat thyroid cells, i.e. cells unresponsive to thyrotropin, have high ADP-ribosylation and low NAD glycohydrolase activities. NAD hydrolysis by the NAD glycohydrolase activity cannot account for the low ADP-ribosylation activity in membranes from the functioning cells, and its low level of ADP-ribosylation can be eliminated by solubilizing the membranes and substituting an artificial acceptor, L-arginine methyl ester. The ADP ribosyltransferase activity of rat thyroid cell membrane preparations can be enhanced by thyrotropin in a dose-dependent manner but not by insulin, glucagon, hydrocortisone, adrenocorticotropin, or its glycoprotein hormone analog, human chorionic gonadotropin. It is thus suggested (i) that, in analogy to cholera toxin, thyrotropin-stimulated ADP-ribosylation may be important in the regulation of the adenylate cyclase response and (ii) that the level of membrane acceptor available for ADP-ribosylation may relate both to a stable "'activated" state of the adenylate cyclase system in cells chronically stimulated with thyrotropin and/or to a desensitized state with regard to a failure of more thyrotropin to elicit additional functional responses.
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PMID:Thyroid membrane ADP ribosyltransferase activity. Stimulation by thyrotropin and activity in functioning and nonfunctioning rat thyroid cells in culture. 627 80

The presence of corticotropin-releasing hormone (CRH) receptors in rat retinal membranes was investigated by using [125I-Tyro]-ovine CRH ([125I]oCRH) as radioligand. The receptor binding was rapid, reversible, saturable and specific. The [125I]oCRH binding was completely displaced by different CRH-related peptides with a rank order of potency similar to that displayed in stimulating rat retinal adenylyl cyclase activity. Two populations of binding sites were detected: one with high affinity (Kd = 1.7 nM) and the other with low-affinity (Kd = 130 nM). The GTP analogue guanosine 5'-O-(3'-thiotriphosphate) reduced the high-affinity binding and increased the relative proportion of sites with low-affinity. Incubation of rat retinal membranes with the RM/1 antibody, which recognizes the carboxyl-terminus of the alpha subunit of the G protein Gs, prevented the CRH stimulation of adenylyl cyclase. In immunoblots, the RM/1 antibody recognized an immunoreactive protein band of 45 kDa and a protein with a similar electrophoretic mobility was ADP-ribosylated by cholera toxin. These data provide evidence for the presence of specific CRH receptors in rat retina and contribute to define the CRH signalling system in this tissue.
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PMID:G protein-coupled corticotropin-releasing hormone receptors in rat retina. 777 Jun 34

In human Y-79 retinoblastoma cells, corticotropin-releasing hormone (CRH) stimulates adenylyl cyclase activity and increases cyclic AMP accumulation. Different CRH analogues mimic the CRH stimulation of adenylyl cyclase and show similar sensitivity to the CRH receptor antagonist alpha-helical CRH9-41. Vasoactive intestinal peptide (VIP) also increases the enzyme activity but less potently than CRH, and its effect is counteracted by the VIP receptor antagonist [D-p-Cl-Phe6,Leu17]VIP. The VIP antagonist does not affect the response to CRH. The CRH-stimulated adenylyl cyclase activity is amplified by Mg2+, is inhibited by submicromolar concentrations of Ca2+, and requires GTP. Moreover, the CRH stimulation is reduced by pretreatment of cells with cholera toxin and by incubation of membranes with the RM/1 antibody, which recognizes the C-terminus of the alpha subunit of Gs. In immunoblots, the RM/1 antibody identifies a doublet of 45 and 52 kDa. Two proteins of similar molecular weights are ADP-ribosylated by cholera toxin. These data demonstrate that in human Y-79 retinoblastoma cells, specific CRH receptors stimulate cyclic AMP formation by interacting with Gs and by affecting a Ca(2+)-inhibitable form of adenylyl cyclase.
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PMID:Coupling of corticotropin-releasing hormone receptors to adenylyl cyclase in human Y-79 retinoblastoma cells. 779 37

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