Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UNIPROT:P01189 (beta-endorphin)
21,003 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

1. Lipolysis by isolated white adipocytes from hamsters, as measured by glycerol production, was stimulated by corticotropin, isopropylnorepinephrine (INE), norepinephrine, or epinephrine (EPI), in a dose-dependent fashion. 2. Lipolysis was stimulated by five inhibitors of cyclic 3',5'-adenosine monophosphate phosphodiesterase: caffeine, theophylline, 1-methyl-3-isobutyl xanthine, 1-ethyl-4-(isopropylidenehydrazine)-1H-pyrazolo-(3,4,-b)-pyridine-5-carboxylic acid ethyl ester (SQ 20009), and 4-(3,4-dimethoxybenzyl)-2-imidazolidinone (Ro 7-2956). Caffeine-stimulated lipolysis consistently attained higher rates than did hormone-stimulated lipolysis. However, when cells were stimulated by both caffeine and a hormone, lipolytic rates were consistently lower than those attained under the influence of caffeine alone. 3. Isolated white adipocytes from hamsters were sensitive to both alpha- and beta-adrenergic antagonists. The beta-adrenergic antagonist propranolol could completely inhibit norepinephrine-stimulated glycerol production. The alpha-adrenergic antagonist phentolamine, on the other hand, had a biphasic effect on the cells. At 5-10(-7) M or 5-10(-6) M, phentolamine enhanced norepinephrine-stimulated lipolysis, while concentrations higher than 5-10(-5) M caused inhibition. 4. The effects of two different concentrations of six antilipolytic agents, prostaglandin E1, nicotinic acid, phenylisopropyladenosine, 5-methylpyrazole-3-carboxylic acid, adenosine and insulin, were measured. With the exception of insulin, all of these agents showed much more potent inhibition of caffeine-stimulated lipolysis than of hormone-stimulated lipolysis. Insulin, in contrast, showed only modest inhibition of hormone-stimulated lipolysis and virtually no inhibition of caffeine-stimulated lipolysis.
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PMID:Characterization of lipolytic responses of isolated white adipocytes from hamsters. 18 45

1. Male rats were injected daily for 5 days with 0.15m-NaCl, corticotropin, cortisol or l-thyroxine and the rates of glycerolipid synthesis were measured in the livers after intraportal injection of [(14)C]palmitate and [(3)H]glycerol. 2. Injection of all three hormones decreased the rates of body-weight gain. 3. Cortisol treatment increased the weight of the liver relative to body weight. 4. Thyroxine treatment increased the relative rate of triacylglycerol synthesis from [(3)H]glycerol and decreased the relative accumulation of (3)H and (14)C in diacylglycerol. It did not significantly alter the accumulation of these isotopes in phosphatidate nor the activity of the soluble phosphatidate phosphohydrolase in the total liver. However, this activity increased by 1.5-fold when expressed relative to the soluble protein of the liver. The increased triacylglycerol synthesis appears to be related to a general increase in the turnover of fatty acids in the liver. 5. Treatment with cortisol and corticotropin increased the relative rate of triacylglycerol synthesis from [(3)H]glycerol, decreased the accumulation of (3)H in phosphatidate and increased the flux of both isotopes from phosphatidate to diacylglycerol. This appeared to be caused by the increased activity of the soluble phosphatidate phosphohydrolase that was observed in the livers of the cortisol-treated rats. 6. It is proposed that cortisol could be directly or indirectly involved in increasing the activity of hepatic phosphatidate phosphohydrolase in starvation, diabetes, laparotomy, subtotal hepatectomy, liver damage, ethanol feeding and in obesity. This enzyme adaptation could contribute to the potential of the liver to increase its synthesis and accumulation of triacylglycerols or to secrete very-low-density lipoproteins.
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PMID:The effects of cortisol, corticotropin and thyroxine on the synthesis of glycerolipids and on the phosphatidate phosphohydrolase activity in rat liver. 21 53

The effects of morphine, beta-endorphin and naloxone on the initial incorporation of 32Pi and [3H]glycerol into TPI, DPI and PI were measured in discrete subcellular fractions of the rat midbrain. Morphine and beta-endorphin significantly increased microsomal 32PI incorporation into TPI and PI but not DPI. Although neither morphine nor beta-endorphin significantly affected the levels of [3H]TPI or [3H]DPI, both agents significantly increased [3H]PI levels. All of the significant effects induced by morphine were blocked by naloxone treatment and were decreased after chronic morphine administration. However, naloxone treatment alone also mimicked all the effects of morphine except the increased incorporation of [3H]glycerol into PI. It was also found that chronic morphine treatment significantly increased the incorporation of 32Pi into synaptic TPI and DPI. This effect, however, did not show regional specificity being found in both cortical and subcortical synaptic membranes. Overall, the results suggest that the mechanisms of opioid action are closely associated with changes in the turnover of the brain phosphoinositides.
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PMID:Influence of morphine, beta-endorphin and naloxone on the synthesis of phosphoinositides in the rat midbrain. 22 11

Relatively little is known about the regulation of secretion of hypothalamic beta-endorphin, the potent opioid that is believed to play a variety of physiological roles in brain. Previous work has shown that arginine vasopressin (AVP), which acts in brain primarily via activation of the phosphoinositol (PI) second messenger system, stimulates secretion of hypothalamic beta-endorphin. To test the hypothesis that activators of protein kinase C (PKC), which is activated following PI hydrolysis, stimulates secretion of beta-endorphins from hypothalamus, we studied the separate effects of stimulators of PKC including phorbol ester 12-myristate-13-acetate (PMA) and 1-oleolyl-2-acetyl glycerol (OAG- a diacyl glycerol analogue) on secretion of immunoreactive (IR-) beta-endorphin (measured by RIA) from dissociated fetal rat hypothalamic cell cultures. We also studied AVP and angiotensin II (Ang II), hypothalamic peptides which activate the PI second messenger pathway, and interactions of PMA and forskolin (FSK), an activator of the cyclic AMP/protein kinase A (PKA) pathway. PMA, OAG, AVP, and Ang II stimulated IR-beta-endorphin secretion. The stimulatory effect of both PMA and FSK on IR-beta-endorphin secretion was greater than that of PMA or FSK alone and was essentially additive.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Protein kinase C activators stimulate beta-endorphin secretion from hypothalamic cells. 142 53

The present study was undertaken to evaluate the metabolic and hormonal responses to physiologic elevations of plasma beta-endorphin concentrations in both normal-weight and obese healthy subjects. The infusion of synthetic human beta-endorphin (4.5 ng/kg/min) produced the following: (1) in normal-weight subjects, no significant change of plasma glucose and pancreatic hormones (insulin, C-peptide, and glucagon), a significant plasma free fatty acids (FFA) increase, and a suppression of glycerol plasma levels; (2) in obese subjects, significant increases of glucose, insulin, C-peptide, and glucagon, a progressive decline of circulating FFA, and no change in glycerol plasma levels. In obese subjects, the intravenous administration of naloxone, given as a bolus (5 mg injected in 5 minutes) before the start of beta-endorphin infusion, reduced the plasma glucose response to the opioid by approximately half, annulled the pancreatic hormonal responses, and also reduced the FFA, but not glycerol, response. In normal-weight subjects, naloxone pretreatment did not induce any change of the flat glucose and hormonal responses to beta-endorphin, but reversed its effects on circulating FFA and glycerol. These data suggest that physiological elevations of plasma beta-endorphin concentrations produce metabolic and hormonal effects in obese subjects significantly different from those occurring in normal-weight subjects; these effects are partially naloxone-sensitive, suggesting the mediation of endogenous opioid receptors.
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PMID:Physiological elevations of plasma beta-endorphin alter glucose metabolism in obese, but not normal-weight, subjects. 173 41

To determine the role of reflex neural mechanisms for hormonal, metabolic, heart rate (HR), and blood pressure (MABP) changes during static exercise, seven health young males performed 10-min periods of two-legged static knee extension both during control and during epidural anesthesia. Comparisons were made at identical absolute (29 Nm) and relative [15% maximal voluntary contraction (MVC)] force. Afferent nerve blockade was verified by hypesthesia below T10-T12 and attenuated postexercise ischemic pressor response. Leg strength was reduced to 67 +/- 5% of control. At same relative force, increases in MABP and HR occurred more rapidly without than with epidural anesthesia (P less than 0.05). This difference was diminished during identical absolute force. Changes in plasma concentrations of catecholamines followed the pattern of HR and MABP responses, with differences between epidural and control experiments being most pronounced early in the work period. Plasma beta-endorphin was elevated only after control exercise. No response at 15% MVC was found for growth hormone, adrenocorticotropic hormone, insulin, glucagon, cortisol, glycerol, free fatty acids, or glucose (P greater than 0.05). In conclusion, during static exercise with large muscle groups and moderate relative force, modest changes in plasma hormones and metabolites take place. Furthermore, afferent nervous feedback from contracting muscles is important in regulation of blood pressure, heart rate, and catecholamine responses during static exercise in humans.
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PMID:Hormonal, metabolic, and cardiovascular responses to static exercise in humans: influence of epidural anesthesia. 187 83

A sodium dodecyl sulfate-polyacrylamide gel electrophoresis system which resolves proteins and peptides from Mr 2000 to Mr 200,000 is described. Gradients of polyacrylamide, crosslinker, and glycerol buffered in Tris-phosphate (pH 6.8) are employed. Neither urea nor a stacking gel is required. This system has been used to separate molecules below Mr 3000 which differed by only seven amino acid residues, yet has the capacity to survey masses up to Mr 200,000 on the same gel. Examples are given for separations of myoglobin cyanogen bromide fragments and adrenocorticotropin peptides. Utilizing the same gradient slab gel system in tandem with isoelectric focusing, a two-dimensional separation pattern of mammalian liver cell lysate is shown. A comparison of two different silver stain methods with this system is also given.
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PMID:A nonurea electrophoretic gel system for resolution of polypeptides of Mr 2000 to Mr 200,000. 242 56

Previous studies have indicated that motor center ("feedforward") activity is important for hormonal and metabolic responses to exercise. Now, epidural blockade at vertebrae L3-L4 was used to evaluate the importance of afferent neural feedback from working muscles. Six healthy, young males cycled for 20 min at 55 +/- 4% (mean +/- SE) of maximal oxygen uptake with, as well as without, epidural anesthesia. During anesthesia cutaneous sensory blockade was present below segment T11-12, the postexercise ischemic pressor response was attenuated from 34 +/- 9 to 14 +/- 4 mmHg, muscle strength reduced to 80 +/- 5% of control, and perceived exertion (Borg scale) was increased. At rest hormonal and metabolic parameters did not change in response to epidural anesthesia. During exercise, responses of catecholamines, insulin, glucagon, and growth hormone (GH) in plasma as well as glucose production and utilization, plasma free fatty acids, and plasma glycerol were similar in epidural and control experiments (P greater than 0.05). In contrast during submaximal exercise, plasma concentrations of adrenocorticotropin (ACTH) and beta-endorphin increased only in experiments without epidural anesthesia. The data indicate that impulses in afferent nerves from the working muscles are essential for the ACTH and beta-endorphin responses to submaximal dynamic exercise in humans. Afferent nervous activity is probably less important than efferent activity from motor centers for responses of GH, catecholamines and insulin, and, in turn, extramuscular fuel mobilization in exercise.
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PMID:Hormonal and metabolic responses to exercise in humans: effect of sensory nervous blockade. 254 39

The study evaluated the hypothesis that during exercise autonomic neuroendocrine activity and, in turn, substrate mobilization, is subjected to feed-forward stimulation from motor centers. Eight young healthy men bicycled for two 20-min periods without (control, C) as well as during partial neuromuscular blockade with tubocurarine (Cu). 3-[3H]glucose was infused, and arterialized hand vein blood was sampled. In period 1 O2 consumption (VO2) (56% VO2 max), heart rate, and blood lactate were identical in Cu compared with C experiments, whereas hand grip strength was lower and perceived exertion [14.0 +/- 1.5 vs. 9.1 +/- 1.2 (SE) points, P less than 0.01] higher in Cu experiments, indicating higher motor center activity. Concentrations of norepinephrine [7.39 +/- 1.18 (Cu) vs. 5.14 +/- 1.06 (C) nmol/l], epinephrine (1.69 +/- 0.33 vs 0.87 +/- 0.16 nmol/l), growth hormone (25.9 +/- 7.3 vs. 11.5 +/- 4.7 mU/l), and adrenocorticotropin hormone (11.3 +/- 1.3 vs. 5.5 +/- 0.7 pmol/l) attained higher values in Cu than in C experiments (P less than 0.05). The initial increase in glucose production was enhanced in Cu (8.1 +/- 1.6 mumol.min-1.kg-1) compared with C experiments (3.9 +/- 1.9, P less than 0.05), and plasma glucose only increased in Cu experiments. Free fatty acid (P less than 0.05) and glycerol (P less than 0.1) concentrations were higher in Cu than in C experiments. In period 2 identical perceived exertion was achieved in the two experiments by reducing work load in Cu experiments. In this period hormonal responses were similar in the two experiments.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Role of motor center activity for hormonal changes and substrate mobilization in humans. 282 45

Many metabolic hormones (glucagon, hydrocortisone, corticosterone, TSH, thyroxine and triiodothyronine) did not stimulate porcine adipose tissue lipolysis in vitro. Growth hormone and ACTH stimulated lipolysis at high concentrations, in the presence of theophylline. Insulin inhibited lipolysis. Infusion of metabolic hormones with measurement of plasma free fatty acid and glycerol concentrations, purportedly indicative of in vivo lipolysis, indicated that glucagon and somatotropin had no effect, adrenocorticotropin increased and insulin depressed plasma concentrations of the metabolites. Overall, the in vitro predicts the in vivo response. There were exceptions, e.g. adrenocorticotropin moderately increased plasma metabolites but had little effect in vitro.
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PMID:Acute effects of metabolic hormones in swine. 287 Aug 58


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