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)

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

Somatostatin (SRIF) has been tested for its actions on the central nervous system to affect glucoregulation. In doses ineffective when given systemically , SRIF and SRIF analogs given intracisternally (ic) reduce hyperglycemia and hyperglucagonemia after ic bombesin administration. The SRIF analog, des-AA1, 2, 4, 5, 12, 13-[D-Trp8]SRIF, decreases plasma insulin and elevates plasma glucose and glucagon when given systemically. However, when given ic, this peptide prevents the rise in glucose and glucagon after ic bombesin administration and is 10 times more potent than SRIF in reducing bombesin-induced hyperglycemia. Other analogs of SRIF and various unrelated peptides were found to be ineffective in reducing bombesin-induced hyperglycemia. des-AA1, 2, 4, 5, 12, 13-[D-Trp]SRIF prevented the hyperglycemia induced by surgical stress or by ic administration of beta-endorphin or carbacol. des-AA1, 2, 4, 5, 12, 13-[D-Trp]SRIF given ic did not prevent hyperglycemia induced by systemic administration of epinephrine, arginine, or glucagon. These studies suggest that SRIF and its analogs may act within the brain to affect glucoregulation.
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PMID:Somatostatin: central nervous system actions on glucoregulation. 44 91

A rare case of pancreatic exocrine carcinoma with an endocrine component secreting adrenocorticotropic hormone (ACTH) is reported and discussed in relation to other cases previously published. The patient initially presented with a severe form of diabetes, which was treated accordingly. Persistence of hyperglycemia, along with other metabolic alterations and marked hypokalemia, led to the suggestion of abnormal ACTH secretion. In this patient, however, a florid Cushing's syndrome was not observed. The patient also developed hematological alterations, mainly leukopenia and thrombocytopenia, whose origins were unclear. At autopsy, a poorly-defined mass was discovered between the body and tail of the pancreas. Standard histology showed a moderately-differentiated adenocarcinoma. Immunohistochemical analysis of the tumor specimen demonstrated the presence of some neoplastic cells immunoreactive for chromogranin A, neuron-specific enolase and ACTH. These findings are consistent with the existence of an endocrine component within the exocrine carcinoma with ACTH differentiation.
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PMID:Pancreatic exocrine carcinoma producing adrenocorticotropic hormone. 131 74

Abnormal growth hormone (GH) and adrenocorticotropic hormone (ACTH)/cortisol secretory patterns in response to a glucose load have been observed in underweight anorectic women. The present study was performed in an attempt to establish whether changes in the hypothalamic/pituitary sensitivity to hyperglycemia occur in bulimia in the absence of weight disturbance. Therefore, serum GH, plasma cortisol, and plasma insulin concentrations were measured in eight women with normal weight bulimia and in eight normal women during an intravenous glucose (0.33 g/kg as an IV bolus) tolerance test (IGTT). In addition, since abnormal pituitary hormone responses to a glucose load might reflect alterations in somatostatin (SRIH) release, TSH secretion also was measured, in view of its sensitivity to SRIH inhibition. Both GH and cortisol levels progressively and significantly declined during IGTT in the normal subjects. In the bulimic women, cortisol levels remained unchanged, whereas GH concentrations rose significantly after glucose injection. Plasma cortisol and serum GH levels were significantly higher in the bulimic than in the control subjects. No significant differences between groups were observed in hyperglycemia-induced insulin increments or in TSH decrements. These data indicate that an altered sensitivity to hyperglycemia affects the hypothalamic/pituitary centers controlling the secretion of the counterregulatory hormones GH and ACTH/cortisol in bulimia nervosa. The lack of a simultaneous change in the TSH secretory pattern argues against a possible involvement of SRIH in the pathophysiology of this disorder.
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PMID:Abnormal growth hormone and cortisol, but not thyroid-stimulating hormone, responses to an intravenous glucose tolerance test in normal-weight, bulimic women. 136 37

Some patients with diabetes mellitus are at increased risk for the development of hyperkalemia. Included in this group are patients with glucose-induced hyperkalemia who may have renal insufficiency, hyporeninemic hypoaldosteronism, or other impediments to the release or action of aldosterone. In an unusual demonstration of this abnormality, two patients with diabetes, who form the basis of our report, became markedly hyperglycemic and hyperkalemic after cosyntropin administration. To our knowledge, this complication of adrenocorticotropic hormone (ACTH) stimulation testing has not been previously reported. It should therefore be emphasized that the use of cosyntropin as a diagnostic agent can provoke severe hyperglycemia and hyperkalemia in a susceptible subgroup of patients with diabetes mellitus.
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PMID:Severe hyperkalemia in two patients with diabetes after cosyntropin administration. 147 47

Four experiments were done to determine which receptor type(s) mediates the effects of third ventricular microinjections of four opioid peptide agonists on blood levels of glucose, free fatty acids, and corticosterone. Tests were performed in unanesthetized adult male albino rats having chronic intraventricular cannulas; blood samples were taken from the tail tip at 0, 15, 30, 60, 90, and 120 min postmicroinjection. In experiment 1, the agonists DAGO (Tyr-D-Ala-Gly-N-methyl-Phe-Gly-ol), beta-endorphin, DSLET (d-Ser2-Leu-enkephalin-Thr), and dynorphin A-(1-17) (0, 0.3, 1, 3, and 10 nmol/rat) produced three distinct patterns of changes in serum glucose, free fatty acid, and corticosterone values. Experiment 2 showed that the effects of DAGO and beta-endorphin were inhibited by prior injection with the opiate-receptor blocker naloxone (1 mg/kg sc) and that the effects of dynorphin were not diminished. Experiment 3 determined that dynorphin effects were also not diminished by naloxone given intraventricularly. Experiment 4 found that blockade of the mu-receptor by intraventricular pretreatment with the specific antagonist beta-funaltrexamine (20 micrograms/rat, 24 h before) completely abolished the effects of DAGO and beta-endorphin on glucose and corticosterone. The mu-receptor is critical to the mediation of the hyperglycemia and hypercorticosteronemia induced by the central administration of opiate agonists. These results imply that mu-opioid binding sites previously identified in central autonomic regions may be involved in the regulation of circulating glucose and corticosterone.
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PMID:mu-receptor mediates elevated glucose and corticosterone after third ventricle injection of opioid peptides. 167 42

The specificity of the hypoglycemic response to the intrathecal (i.t.) administration of the naturally occurring (-)-enantiomer of morphine previously reported from our laboratory was studied in mice. (+)-Morphine HBr (50 micrograms) caused a behavioral syndrome (scratching, biting, seizures) comparable to that produced by (-)-morphine sulfate (50 micrograms), but did not cause hypoglycemia. Many opioids, at a dose of 50 micrograms i.t. in nonfasted mice, showed either a saline-like hyperglycemic response or no significant effect on blood glucose. (+)-Morphine, ketocyclazocine, U-50,488, (-)- and (+)-N-allyl-normetazocine, beta-endorphin, (-)- and (+)-naloxone and naltrexone caused hyperglycemia. Significant changes from basal blood glucose were not produced by [D-Pen2, L-Pen5]-enkephalin, [D-Ser2]-Leu-enkephalin-Thr or sufentanil in 50-micrograms doses, or by codeine (300 micrograms), levorphanol (400 micrograms) or methadone (200-400 micrograms). Agonists which produced both hypoglycemic and behavioral effects were, in order of decreasing potency, hydromorphone greater than normorphine greater than morphine greater than 6-acetylmorphine greater than oxymorphone much greater than heroin. Morphine-induced hypoglycemia was partially antagonized by the i.t. coadministration of naloxone methobromide (10 micrograms). Fasting for 24 hr increased the sensitivity to hypoglycemic and lethal effects of morphine. D-Ala2-N-Me-Phe4-Gly5-ol]-enkephalin (5-50 micrograms i.t.) tended to decrease blood glucose in both nonfasted and fasted mice, but these effects were moderate and appeared to be unrelated to dose.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Hypoglycemia induced by intrathecal opioids in mice: stereospecificity, drug specificity and effect of fasting. 235 29

The effects of centrally administered beta-endorphins on glucose homeostasis in the conscious dog were studied. Intracerebroventricular administration of beta-endorphin (0.2 mg/h) caused a 70% increase in plasma glucose. The mechanism of the hyperglycemia was twofold: there was an early increase in glucose production and a late inhibition of glucose clearance. These changes are explained by marked increases in plasma epinephrine (30-fold) and norepinephrine (6-fold) that occurred during infusion of beta-endorphin. Central administration of beta-endorphin also resulted in increased levels of adrenocorticotropic hormone and cortisol. In addition there was an increase in plasma insulin but no increase in plasma glucagon. Intravenous administration of beta-endorphin did not alter glucose homeostasis. Intracerebroventricular administration of acetylated beta-endorphin did not perturb glucose kinetics or any of the hormones that changed during infusion of the unacetylated peptide. We conclude that beta-endorphin acts centrally to cause hyperglycemia by stimulating sympathetic outflow and the pituitary-adrenal axis. Acetylation of beta-endorphin abolishes the in vivo activity of the peptide.
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PMID:Central effects of beta-endorphins on glucose homeostasis in the conscious dog. 252 86

The relationship between beta-endorphin(beta-EP)/beta-lipotropin(beta-LP) and insulin secretion in the basal state and after glucose challenge was studied in obese male Zucker rats and their lean littermates. Baseline plasma beta-EP/beta-LP concentrations were similar in the two groups of animals. Baseline plasma insulin and serum glucose concentrations were significantly higher in the obese animals. Following glucose challenge, the increase in plasma beta-EP/beta-LP concentrations was significantly lower in the obese animals than in their lean littermates. Opioid blockade with naloxone failed to alter the baseline hyperinsulinemia and hyperglycemia seen in the obese animals. The data suggest that the hyperinsulinemia in the obese Zucker rat is not due to endogenous hyperendorphinemia as shown in humans with polycystic ovary syndrome. The obese rats showed dissociation between glucose-stimulated plasma levels of beta-EP/beta-LP and insulin levels which may contribute to the hyperinsulinemia and insulin resistance in these animals.
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PMID:Relationship between beta-endorphin/beta-lipotropin, hyperglycemia, and hyperinsulinemia in obese male Zucker rats. 253 May 89

The genetically obese mouse (C57BL/6J ob/ob) is a commonly used animal model of non-insulin-dependent diabetes mellitus. These mice show exaggerated glycemic responses during behavioral stress and adrenergic stimulation, but the precise glucoregulatory mechanisms are not well characterized. The ob/ob mice have multiple endocrine abnormalities, including elevated pituitary and circulating beta-endorphin levels; and a relationship between hyperglycemia and altered opioid function has been suspected. We now report that opiate antagonism with naltrexone potentiates hyperglycemic responses during stress and epinephrine challenge in obese mice. This effect of opioid blockade suggests that endogenous opioids inhibit stress- and epinephrine-induced hyperglycemia in the genetically obese mouse.
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PMID:Naltrexone potentiates glycemic responses during stress and epinephrine challenge in genetically obese mice. 254 57

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