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)

To evaluate the change of the neurotransmitter function in migraine, a neuroendocrinological study was performed in eleven female migraineurs and nine female controls. Thyrotropin releasing hormone, luteinizing hormone releasing hormone, and insulin were simultaneously loaded (the Triple test). Before and after loading, serum glucose, prolactin (PRL), thyroid stimulating hormone (TSH), luteinizing hormone, follicle stimulating hormone, adrenocorticotropic hormone, cortisol, human growth hormone and beta-endorphin were measured. The Triple test produced an increase of PRL in both migraine and control groups, but in migraineurs the increase was significantly larger than in controls. TSH also increased in response to the test, but the TSH response in patients was less than in controls, although not significantly so. The responses of other substances showed no significant differences between the two groups. Although dopaminergic hypofunction in migraine has been proposed by some authors, the present findings rather suggest a serotonergic hyperfunction.
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PMID:A neuroendocrinological study in female migraineurs: prolactin and thyroid stimulating hormone responses. 250 60

Intravenous administration of small doses of beta-endorphin causes immediate suppression of basal and glucose-stimulated insulin secretion in normal rabbits. The purpose of the present study was to determine if beta-endorphin directly inhibits glucose-stimulated insulin secretion from rabbit pancreatic islets. Islets were isolated from male New Zealand White rabbits and perifused for 1 h with medium containing 100 mg/dl glucose (M100) followed by a 1-h challenge with medium containing 300 mg/dl glucose (M300) with or without beta-endorphin and/or the specific opioid antagonist naloxone. Samples were collected every 5 min during the last 30 min of the baseline perifusion with M100 and during the 1-h challenge with the stimulatory concentration of glucose (M300). Total insulin secretion for each 1-h period was calculated by adding the areas under the curves for twice the 30-min baseline period and for the 1-h challenge period. The mean +/- SE area for the control islets during perifusion with M100 was 5.9 +/- 0.8 microU/islet.h. M300 stimulated a 4.2-fold increase in the amount of insulin secreted (24.5 +/- 3.6 microU/islet.h). The stimulated rate of insulin release was sustained throughout the 1-h test period with M300, averaging 0.42 +/- 0.02 microU insulin/islet.min. beta-Endorphin inhibited glucose-stimulated insulin secretion in a concentration-dependent manner. Maximal suppression of insulin secretion to a level well below the baseline secretion rate was produced by 300 nM beta-endorphin (1.9 +/- 0.3 microU/islet.h). The first 15 min of glucose-stimulated insulin secretion was 6 times less sensitive to the inhibitory effect of beta-endorphin than was the next 45 min. The concentrations of beta-endorphin causing 50% inhibition of glucose-stimulated insulin secretion (IC50) for the 5- to 15-, 20- to 60-, and 5- to 60-min intervals were 1.96, 0.35, and 0.57 nM, respectively. Naloxone (3 microM) had no effect on glucose-stimulated insulin secretion, but partially antagonized the inhibitory effect of 30 nM beta-endorphin (10.2 +/- 2.9 microU/islet.h naloxone plus beta-endorphin vs. 2.6 +/- 1.1 microU/islet.h beta-endorphin; P less than 0.05). These data demonstrate that beta-endorphin, at low concentrations, has a direct inhibitory effect on insulin secretion, and they support the idea that a naloxone-sensitive beta-endorphin-binding component is present in pancreatic islets.
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PMID:Beta-endorphin inhibits insulin secretion from isolated pancreatic islets. 252 21

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

Recently, our laboratory has reported that central administration of beta-endorphin to rat pups decreases hepatic and renal ornithine decarboxylase activity, a sensitive biochemical index of tissue metabolic activity. Since these organs are the major sites of insulin catabolism, it seemed possible that the plasma levels of this hormone could be altered by changes in central nervous system (CNS) beta-endorphin levels. In the current study we tested this hypothesis by administering beta-endorphin to rat pups intracisternally (ic), followed by insulin sc, and then analyzing for plasma levels of insulin and glucose at various times after the second injection. We found that the apparent biological half-life of administered insulin markedly increased in 6-day-old rats pretreated with beta-endorphin ic. Similarly, this neuropeptide prolonged the half-life of endogenous insulin, as indicated by a small but significant increase in the plasma levels of this hormone in animals given only beta-endorphin. As expected, hypoglycemia in rats injected with beta-endorphin and insulin was more pronounced than in animals given insulin alone. Naloxone administered ic reversed both actions of beta-endorphin, indicating the involvement of opioid receptors in the response. beta-Endorphin also altered insulin and glucose plasma levels in 2-, 10-, and 18-day-old rats, but there were no effects in 30-day-old animals at any of the doses used in these studies. Peripheral administration of beta-endorphin had no effect, indicating that CNS beta-endorphin's influences on insulin and glucose metabolism occur through brain-based mechanisms. The results from these studies suggest that CNS beta-endorphin may be an important modulator of insulin and glucose metabolism in preweanling rats. In as much as insulin is a major regulator of somatic growth, our findings further suggest that CNS beta-endorphin may have a major role in the control of growth during early postnatal development by influencing insulin homeostasis.
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PMID:Regulation of insulin and glucose plasma levels by central nervous system beta-endorphin in preweanling rats. 252 2

Numerous studies have shown a rise of blood sugar concentrations and serum levels of pancreatic polypeptides after pharmacological doses of beta-endorphin. We tested the yet unknown influence of physiological fluctuations in beta-endorphin serum levels on glucose homeostasis by stimulating the pituitary secretion with CRF. 100 micrograms of human CRF or saline solution were intravenously injected in ten healthy male subjects at least one week apart. beta-endorphin serum levels rose significantly after the injection of CRF, but there was no change in blood sugar concentrations or serum levels of glucagon or insulin at all. We conclude that only a pharmacological dose of beta-endorphin influences glucose homeostasis.
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PMID:Increase of beta-endorphin serum levels by human corticotropin-releasing factor does not affect beta-cell function in normal-weight men. 252

The present study was designed to examine the role played by beta-endorphin in the physiological response to the stress of insulin-induced hypoglycemia. Three groups (n = 5, each) of conscious overnight-fasted dogs, chronically fitted with catheters in the femoral artery and in the third ventricle were used for these studies. Each experiment consisted of an 80-min equilibration period (0-80 min), a 40-min basal period (80-120 min), and a 180-min (120-300 min) experimental period. One group received a 220-min intracerebroventricular (icv) infusion of naloxone (0.2 mg/h) beginning at t = 80 min. The second group received a 3-h intravenous infusion of insulin at 5.0 mU.kg-1.min-1 beginning at t = 120 min. The third group received naloxone at t = 80 min and insulin beginning at t = 120 min, and both were continued throughout the experimental period. The studies show that insulin-induced hypoglycemia was associated with a rise in plasma cortisol, beta-endorphin, epinephrine, norepinephrine, and glucagon. Pretreatment with naloxone diminished the rises in plasma beta-endorphin, epinephrine, and norepinephrine without affecting the responses of plasma glucagon and cortisol. Although the levels of hypoglycemia achieved in the two groups were identical, glucose rates of appearance into and disappearance from the plasma compartment were higher in the group pretreated with icv naloxone (P less than 0.05).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effects of naloxone on glucose homeostasis during insulin-induced hypoglycemia. 252 11

Sulphonylurea drugs have been shown to augment glucose metabolism by both pancreatic and extrapancreatic actions. The regulation of glucose involves a modification of beta-endorphin secretions via central and peripheral mechanisms. beta-Endorphin participates in the regulation of feeding and is implicated both in obesity and diabetes mellitus. This study shows that glipizide could exert its pharmacological action in genetically diabetic (db/db) mice via beta-endorphin secretions by a central mechanism.
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PMID:Effects of glipizide on beta-endorphin concentration in the brain of genetically diabetic (db/db) mice. 253 Jan 22

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

Increased responses of plasma insulin and endorphins to the oral glucose tolerance test (oGTT) have earlier been found in obese women. We studied responses of immunoreactive beta-endorphin (ir beta-E) and insulin in plasma to the oGTT in 8 non-obese women with polycystic ovaries (PCO) and in 10 healthy women. An additional control group consisted of 5 healthy women who were fasting during the study period. In the PCO group the insulin and glucose responses to the oGTT were increased, and an increase of ir beta-E from 5.9 +/- 1.5 to 8.6 +/- 2.8 pmol/l was found during the 1st half-hour period of the oGTT. In contrast, no significant change was found during the oGTT in healthy women (3.2 +/- 0.5 and 2.7 +/- 0.65 pmol/l, respectively), and in the fasting control women the mean ir beta-E level (+/- SE) decreased, from 4.5 +/- 1.2 to 3.6 +/- 1.1 pmol/l. These findings revealed increased responses of both plasma ir beta-E and insulin to the oGTT in non-obese women with PCO but their possible causal relationship remained unsolved.
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PMID:Response of plasma beta-endorphin and insulin to oral glucose tolerance test in non-obese women with polycystic ovaries. 253 35

Regulation of blood glucose involves the integration of the central nervous system with both hormonal and neural mechanisms. Considerable evidence suggests that beta-endorphin is involved in the regulation of feeding in experimental animals and man. Previous studies have shown that beta-endorphin plays an important role during hyperglycaemia. Glipizide has been shown to increase glucose metabolism by both pancreatic and extrapancreatic actions. This study indicates that glipizide may exert its pharmacological action in obese cafeteria rats through a modification of beta-endorphin secretions via central and peripheral mechanisms.
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PMID:Effects of glipizide on beta-endorphin secretions in response to hyperglycaemia in obese cafeteria rats. 253 92

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