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)

The tyrosine-3-monooxygenase activity [L-tyrosine, tetrahydropteridine: oxygen oxidoreductase (3-hydroxylating); EC 1.14.16.2] of rat adrenal medulla is induced 20-24 hr after the injection of reserpine (16 mumol/kg intraperitoneally). This and other inducing stimuli increase the 3': 5'-cyclic AMP (cAMP) content in the medulla for longer than 60 min and activate the cAMP-dependent protein kinase (ATP: protein phosphotransferase; EC 2.7.1.37) for several hours. Corticotropin (ACTH), dopamine, and propranolol do not induce the monooxygenase, but elicit an increase in the cAMP content of the medulla which fails to activate protein kinase and lasts less than 1 hr. A high- and low-molecular-weight protein kinase are separated by gel filtration from the 20,000 X g pellet extract of adrenal medulla homogenate. The activity of the low-molecular-weight enzyme is expressed as its ability to phosphorylate histone. The protein kinase activity of the pellet is increased between 3 and 17 hr after reserpine injection. Our evidence indicates that this increase is due to a translocation from cytosol to subcellular structures of a kinase that utilizes lysine-rich histone as phosphate acceptor. The protein kinase activity that is extracted from a purified nuclear fraction prepared from the adrenal medulla of rats injected 7 hr previously with reserpine is greater than that extracted from medulla of saline-treated rats.
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PMID:Activation and nuclear translocation of protein kinase during transsynaptic induction of tyrosine 3-monooxygenase. 0 93

Acid phosphatase activity in homogenized tibiae and femora of suckling rats was extracted with 0.3M KCl and 0.1% Triton X-100. A high-speed supernatant was treated with protamine sulfate, dialyzed, and chromatographed on CM-52 cellulose. All of the acid phosphatase activity was eluted with a sodium acetate buffer and combined ionic strength-pH gradient into two peaks (E1 and E2). Both enzyme peaks were further purified with Sephadex G-200, which resulted in 700- and 1000-fold purification for E2 and E1, respectively. A total of 220 units (mumoles substrate/min) of E2 with a specific activity of 160 units/mg protein has been obtained in one run by this procedure. E1 has a high molecular weight (greater than 100,000) and shows preference for monophosphate ester substrates, is markedly inhibited by tartrate, and has a pH optimum near 5. E2 has a lower molecular weight (greater than 40,000) and shows negligible activity with monophosphate esters [except with p-nitrophenyl phosphate (p-NPP)], but high activity with ADP and ATP. E2 is unaffected by tartrate and shows a pH optimum near 6. Both enzymes are competitively inhibited by inorganic phosphate, and E2, but not E1, is markedly inhibited by p-chloromercuribenzoate. With p-NPP as substrate, E1 and E2 have distinctly different values for Km. E1 appears similar to the high molecular weight acid phosphatases of soft tissues. However, E2 appears to differ from the low molecular weight phosphatases in soft tissues with regard to substrate specificity.
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PMID:Purification and partial characterization of two acid phosphatases from rat bone. 11 82

Effects of ATP, acetyl phosphate (AcP) and p-nitrophenyl phosphate (p-NPP) on the inhibition of the Na+, K+-ATPase activity were studied. ATP, AcP and p-NPP were found to facilitate the ouabain-induced inhibition of the enzyme activity only after the injection of these phosphorylyzing agents into the erythrocyte ghosts. Inside the ghosts Na+ ions enhanced the effects of the phosphorylyzing agents. K+ ions in the environment removed the stimulating effects of ATP, AcP and p-NPP on the ouabain-induced inhibition of Na+, K+-ATPase activity. It is concluded that the sites of AcP and p-NPP hydrolysis as well as the active center for ATP are localized on the inner surface of the cell membrane.
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PMID:[Study of the interaction of Na+ and K+-ATPase of erythrocytes with ouabain. Effect of acetyl phosphate and p-nitrophenyl phosphate]. 13 45

The same isoenzyme of nonspecific alkaline phosphatase (APase), assayed with p-nitrophenylphosphate (p-NPP), was shown be present in different calcifying tissues, bone, calcifying cartilage, odontoblasts and enamel organ. Indications were also found that the enzymatic degradation of inorganic pyrophosphate (PPi) in calcifying tissues is mediated by APase. By using specific APase inhibitors, it was shown that two enzymes capable of degrading ATP exist. These were characterized in dentinogenically active odontoblasts, and it was concluded that one is the classical APase, the other is a Ca2+ and Mg2+ activated ATPase, named Ca2+-ATPase. The two phosphatases were solubilized from odontoblasts and separated. The localization of APase and Ca2+-ATPase in odontoblasts was investigated by subcellular fractionation and EM histochemistry. Routine methods for fixation were found to almost completely inactivate the enzymes. By using a mild fixation technique that preserved 80% of the enzyme activity, the main localization for both APase and Ca2+-ATPase was found to be in the membranes of intercellular vesicles located in the cell body and odontoblasts process. No activity was found in the cell membranes. It is concluded that there are at least two enzymes able to degrade phosphate compounds at alkaline pH in hard tissue forming cells. One is the nonspecific alkaline phosphatase (APase; EC 3. 1. 3. 1), which is active against p-NPP, PPi, glycerophosphates and ATP among other substrates. The other is a more specific Ca2+-ATPase (EC 3. 6. 1. 3). There seems to be an intimate relation between these two enzymes in the tissue. The function of APase in biological calcification is still obscure. In contrast, the finding of an ATP dependent, intravesicularly directed, transmembranous Ca2+-transport in vesicles derived from the microsomal fraction of odontoblasts may explain the role of Ca2+-ATPase.
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PMID:Odontoblast alkaline phosphatases and Ca2+ transport. 15 9

Steroid-induced difference spectra have been used to examine the combination of cholesterol with adrenal mitochondrial cytochrome P-450 which participates in cholesterol side chain cleavage (P-450scc) and the depletion of cholesterol from the cytochrome which results from turnover of the enzyme system. Type I difference spectra-induced by cholest-5-ene-3beta, 25-diol (25-hydroxycholesterol) and cholest-5-ene-3beta, 20 alpha, 22R-triol (20alpha, 22R dihydroxycholesterol) have been used to quantitate binding of cholesterol to two sites (I and II) on cytochrome P-450scc. The action of adrenocorticotropic hormone (ACTH) in vivo and the action of calcium or phosphate ions on isolated mitochondria stimulate the combination of cholesterol with site I but not site II. Cholesterol derived from lecithin-cholesterol micelles, however, binds to both sites. Malate-induced cholesterol depletion occurred at a comparable rate to the transfer of cholesterol from lecithin-cholesterol micelles. However, a residual proportion of cholesterol-cytochrome P-450scc complexes remained, even after 10 min of exposure to malate, and was of similar magnitude in mitochondria from both cycloheximide-treated and stressed rats. It is suggested that this reflects a less reactive form of cholesterol-cytochrome complex. Steroid-induced difference spectra indicate that sites I and II on cytochrome P-450scc are similarly depleted after metabolism of mitochondrial cholesterol in vitro and after inhibition of the action of ACTH in vivo. Anaerobiosis of adrenal cells after excision of the accumulation of cholesterol at cytochrome P-450cc. When anaerobiosis was prevented, cytochrome P-450scc in the freshly isolated mitochondria was apparently essentially free of complexed cholesterol, irrespective of the extent of ACTH action. For 30 min after suspension of the mitochondria in 0.25 M sucrose at 4 degrees, cholesterol combines with cytochrome P-450scc. The extent of this process was not affected by the presence of cycloheximide during ether stress treatment of the rats. It is concluded that there are at least two pools of mitochondrial cholesterol with access to cytochrome P-450scc but that ACTH stimulates only the pool which most readily interacts with the cytochrome.
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PMID:Cytochrome P-450 of adrenal mitochondria. In vitro and in vivo changes in spin states. 16 1

Studies were undertaken to investigate the effects of synthetic 1-24 adrenocorticotropin (ACTH), bovine alpha melanocyte-stimulating hormone (alpha-MSH), and ovine beta lipotropin (beta-LPH) on plasma calcium and phosphate in rabbits. Equimolar concentrations of these hormones were infused intravenously in intact and thyroidectomized animals. In addition, ACTH was similarly administered to adrenalectomized rabbits. ACTH, alpha-MSH, and beta-LPH all lowered plasma calcium and raised plasma phosphate. These changes were not prevented by prior thyroidectomy. ACTH was equally effective in inducing hypocalcemia and hyperphosphatemia in the absence of the adrenal glands, while adrenalectomy alone raised plasma calcium. From these findings we have concluded that 1) ACTH, alpha-MSH, and betaLPH affect phosphate as well as calcium metabolism; 2) these hormones do not act by releasing calcitonin; and 3) ACTH exerts its hypocalcemic-hyperphosphatemic effect, at least in part, independently of its trophic action on the adrenal glands.
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PMID:Effect of ACTH, alpha-MSH, and beta-Lipotropin on calcium and phosphorus metabolism in the rabbit. 17 30

The effects of Vibrio cholerae enterotoxin on steroidogenesis and on formation of adenosine 3':5'-cyclic phosphate (cyclic AMP) in two adrenal tumor cell lines were compared. Steroidogenesis was half-maximal at concentrations of 1 ng of cholera toxin/ml in the mutant OS-3 cells and 3 ng of cholera toxin/ml in the parent Y-1 cells. At the end of an 8-hr incubation, toxin-induced formation of cyclic AMP in the mutant cell line was reduced by 90%. A molar ratio of GM1 ganglioside (galactosyl-N-acetylgalactosaminyl [sialosyl] lactosyl ceramide; GGnSLC) to cholera toxin of 3:1 caused half-maximal inhibition of steroidogenesis in both cell lines. When equine antiserum to choleragenoid was added to adrenal cells 15 min after cholera toxin, there was marked inhibition of cyclic AMP formation and of steroidogenesis. Pretreatment of Y-1 cells with adrenocorticotropin rendered them unresponsive to hormonal induction of cyclic AMP formation, but these cells had an unimpaired response to cholera toxin. These studies, utilizing two adrenal cell lines, suggest important differences between the mode of action of cholera toxin and that of adrenocorticotropin in cultured adrenal tumor cells.
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PMID:Mode of action of Vibrio cholerae enterotoxin in cultured adrenal tumor cells. 17 80

The mechanism of the corticotropin (ACTH) action was studied. It was found that daily injections of ACTH-zinc-phosphate (5 un./100 g) to intact albino rats for 14 days result in a disturbance of the hepatocytes ultrastructure. When the hormone was injected in combination with sodium ribonucleate (5 mg/100 g), the deviations were less pronounced, injections of the hormones to adrenalectomized rats did not change the ultrastructure of hepatocytes.
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PMID:[Ultrastructural changes in the livers of rats following multiple injections of corticotropin and sodium ribonucleinate]. 18 63

Daily, for 14 days, rabbits of one group were injected with corticotropin, i.e. ACTH-zinc-phosphate (10 units/kg), whereas rabbits of another group were given (in addition) sodium ribonucleate (40 mg/kg) through a tube into the stomach. Formation of lysyl-tRNA, leucyl-tRNA, and alanyl-tRNA in the liver and the skeletal muscles proved to be significantly greater in the animals which received ACTH together with sodium ribonucleate, as compared to that in the animals given the hormone alone. Hyperglycemia, hepatomegaly, and emaciation were less pronounced in the animals given both the preparations.
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PMID:[Effect of enteral administration of sodium ribonucleate on the synthesis of amino acyl t RNA in the liver and skeletal muscles of rabbits in experimental hypercorticism]. 19 79

Groups of female rats were injected daily for 14 days with 10 mg of cortisone acetate subcutaneously, to study the mechanisms of glucocorticoid suppression on the hypothalamic-pituitary-adrenal axis. Pituitary adrenocorticotropic hormone (ACTH) content, plasma ACTH, adrenal venous corticosterone, adrenal weights, and the catabolic effects on body weight were studied simultaneously (under stressful and non-stressful conditions) before, during, and up to six weeks after cortisone. This study confirmed the results of other investigators that cortisone acetate caused catabolic weight loss and adrenal atrophy, but it was noted to persist up to six weeks after the injections. Glucocorticoid acetate was more effective in causing ACTH-axis suppression than succinate or phosphate preparations, and the effects were dose and time related. Significant depletion of pituitary ACTH content, suppression of plasma ACTH, and corticosterone secretion occurred five to seven days after beginning cortisone acetate (p=<0.001); it was continuous throughout the injection schedule (p=<0.001); it remained for two to four weeks after the cortisone was discontinued (p=<0.001). The animals showed minimum plasma ACTH responsiveness to severe acute stress during this two to four-week suppression phase, but rapid recovery occurred thereafter. Plasma ACTH was undetectable up to six weeks post-cortisone when the animals were not under stress. This may be related to residual cortisone acetate found at the injection sites, or to an altered or different ACTH-axis control mechanism. The sequence of events during recovery from cortisone suppression appeared to be (1) repletion of corticotrophin-releasing hormone (by inference), (2) repletion of pituitary ACTH content, (3) secretion of plasma ACTH, (4) reversal of adrenal atrophy, and (5) subsequent secretion of corticosterone.
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PMID:Suppression of the hypothalamic-pituitary-adrenal axis after subcutaneous cortisone acetate administration in rats. 22 95

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