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)

When an endogenous morphine, beta-endorphin was discovered ten years ago, the fact that this morphine is present in the brain and many other tissues suggested to neurobiologists that these peptide opiates play a role which goes beyond that of a simple modulator of the perception of pain. beta-endorphin is a neurohormone which is secreted by the pituitary gland and reaches all tissues present in the body by diffusion. Many laboratories have investigated variations in serum levels of beta-endorphin under widely varying physiological or pathological conditions. Many references to these studies in the literature have thus demonstrated that beta-endorphins play a role in certain behavioural patterns (stress, alcoholism), in obesity, diabetes and psychiatric diseases. In fact, the activity of beta-endorphins would appear to have an interesting role to play and are a promising feature in the treatment of cerebral aging; in this field, beta-endorphins act not only as neuroregulators of other neurotransmitting substances but also, via calcium channels, exert an effect on the walls of cerebral arterioles. In situ, the role of beta-endorphins at the ionic channel level has been studied using the patch-clamp technique. In 1991, E Neher and B Sakmann received the Nobel Medicine and Physiology Prize for this work. beta-endorphin, which may be the "missing link" between the neuron and the wall of the arteriole, must be considered as being a fundamental neurotransmitter in the same way as well-known substances such as noradrenaline, acetylcholine, serotonin, dopamine and the GABAergic system are also neurotransmitters.
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PMID:Physiology of beta-endorphins. A close-up view and a review of the literature. 752 Feb 95

Several dominant mutations at the murine agouti locus result in the expression of a number of phenotypic changes, including a predominantly yellow coat color, obesity, and hyperinsulinemia. The mutants exhibit ectopic overexpression of normal agouti protein, suggesting that agouti regulates coat coloration by direct antagonism of the alpha-melanocyte-stimulating hormone receptor. We have tested this hypothesis by examining agouti inhibition of both melanocortin-stimulated cyclic adenosine monophosphate production and the binding of a radioactive melanocortin analog in the murine B16F10 melanoma cell line. Inhibition of melanocortin-induced cyclic nucleotide accumulation did not require preincubation of the cells with agouti and was independent of the agonist used. Furthermore, inhibition of both agonist binding to and activation of melanocortin receptor could be described by a simple competitive model with similar inhibition constants of 1.9 and 0.9 nM, respectively. The mutually exclusive binding of agouti and melanocortin was verified by cross-linking experiments using a radiolabeled alpha-melanocyte-stimulating hormone analog. Competitive inhibition of alpha-melanocyte-stimulating hormone binding can account for the effects of agouti on coat coloration and suggests the possibility that the other phenotypic changes observed on agouti overexpression may be due to direct action of agouti at a novel melanocortin receptor(s).
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PMID:Agouti antagonism of melanocortin binding and action in the B16F10 murine melanoma cell line. 754 13

Exaggerated adrenal response (ExAR), i.e. hypersecretion of both 17-hydroxypregnenolone (170HPreg) and 17-hydroxyprogesterone(17OHP) in response to adrenocorticotropic hormone (ACTH) stimulation, is frequently found in women with polycystic ovary (PCO) syndrome who had precocious adrenarche. In an earlier study we found an abnormal adrenal response in girls with idiopathic true central precocious puberty (CPP) at early stages of puberty. On follow-up it was noted that a significant number of girls with CPP develop PCO-like syndrome at a relatively young age. The aim of the present study was to determine if there is an association between ExAR and early PCO in girls with a history of CPP. Included were 49 girls with a history of CPP, 34 of whom were treated with gonadotropin-releasing hormone (GnRH) analog. All 49 were evaluated at full maturity, at ages 12.5-14 years, 0.5-4 years after menarche or resumption of menses. Of the 49 girls, 20 had at least 3/4 clinical signs of PCO (irregular menses, hirsutism, acne and obesity) and were defined as PCO-like+, whereas 29 did not fulfil the criteria and were considered PCO-like-. Girls with a definite enzyme deficiency were excluded from the study. All participants underwent a combined iv ACTH-GnRH test at early follicular phase. The PCO-like+ girls all revealed ExAR, i.e. an elevated stimulated 17OHPreg of 63.4 +/- 9.6 nmol/l (normal 28.6 +/- 9.2 nmol/l) and a normal stimulated 17OHPreg/17OHP ratio of 7.1 +/- 1.8 (normal 6.2 +/- 2.7), whereas all the PCO-like- had a normal adrenal response (30.0 +/- 8.7 and 5.3 +/- 2.0 nmol/l, respectively).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Early polycystic ovary-like syndrome in girls with central precocious puberty and exaggerated adrenal response. 758 60

The hypothesis that the stimulatory action of free fatty acids (FFA) in the hypothalamic-pituitary-adrenocortical (HPA) axis occurs in part at the adrenal cortex was evaluated. Pathophysiological concentrations of oleic and linoleic acids, but not stearic or caprylic acid, stimulated steroidogenesis from cultured rat adrenocortical cells (concentrations eliciting 50% of maximal responses, approximately 60 and 120 microM, respectively), with a latency of 90 min. Maximal stimulation of steroidogenesis by both acids was < 50% of that produced by adrenocorticotropic hormone (ACTH) and was blocked by cycloheximide. The maximal steroidogenic response to ACTH was inhibited approximately 50% by oleic acid. The actions of oleic and linoleic acids were not associated with an increase in adenosine 3',5'-cyclic monophosphate (cAMP) secretion but appeared to require intracellular oxidation. None of the lipids influenced cell viability or corticosterone radioimmunoassay. The latency of the steroidogenic response, the putative requirement for intracellular oxidation, and the apparent lack of involvement of cAMP suggest a mechanism of action of FFA distinct from that of ACTH, yet still requiring protein synthesis. It is concluded that the modulation of steroidogenesis by these abundant naturally occurring lipids may be an important component of the control mechanisms within the HPA pathway in disorders of lipid homeostasis (e.g., obesity, starvation, or diabetes).
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PMID:Stimulation of steroidogenesis in cultured rat adrenocortical cells by unsaturated fatty acids. 761 25

The Zucker rat is an animal model of autosomal recessive obesity characterized by excessive hypothalamic-pituitary-adrenal (HPA) axis and parasympathetic activities and deficient sympathetic outflow. Alterations in norepinephrine (NE) release, reuptake, and metabolism in the hypothalamic paraventricular nucleus (PVN) could also contribute to dysregulation of the HPA axis in obese Zucker rats via effects on corticotropin-releasing hormone neurons or could be secondary to some other primary defect. The present study assessed whether the obese phenotype defect. The present study assessed whether the obese phenotype (fa/fa) compared to the lean phenotype (Fa/?) of this strain was also associated with alterations in basal and immobilization (IMMO) stress-induced noradrenergic activation in the PVN, using in vivo microdialysis. To evaluate concurrent activity of the peripheral sympathetic nervous system and the HPA axis, we also measured plasma concentrations of catecholamines, ACTH, and corticosterone. IMMO-induced increases in PVN NE levels were significantly lower in obese Zucker rats, as were elevations in plasma concentrations of dihydroxyphenylglycol and epinephrine. Basal and IMMO-stimulated plasma ACTH concentrations were similar in obese and lean rats. Basal plasma corticosterone concentrations were also similar in obese and lean rats; however, IMMO-stimulated corticosterone levels were significantly greater in obese than in lean animals. Basal plasma free corticosterone levels, measured by ultrafiltration, were significantly higher in obese than in lean rats, confirming the state of chronic hypercorticosteronism in these animals. These findings indicate that obese Zucker rats have diminished central noradrenergic and peripheral sympathetic nervous system responses to IMMO stress along with a chronically hyperactive HPA axis. We suggest that defective regulation of PVN NE reflects and contributes to the development and/or maintenance of obesity in Zucker rats via central hypoactivity of the sympathetic system. The hypercorticosteronism of these animals, apparently sustained by some nonadrenergic stimulatory input, might participate in the suppression of the sympathetic system.
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PMID:Decreased central and peripheral catecholaminergic activation in obese Zucker rats. 766 55

In order to investigate the relationships between glucose metabolism, insulin secretion and endogenous opioids in obese patients, we have studied the effects of a naloxone infusion on insulin and C-peptide release after a normal meal (800 kcal) eaten at 12.00 hr in 16 obese women, aged 20-61 yr, with a BMI ranging from 25 to 37.2 kg/m2, with normal glucose tolerance (Group 1) and with NIDDM (Group 2). Naloxone was administered in a bolus of 1.6 mg i.v., followed by a continuous infusion of 4 mg in 2 hr starting immediately after feeding. In Group 1 naloxone infusion significantly increased the glucose levels, but insulin secretion was unaffected. In Group 2, naloxone infusion failed to modify significantly the postprandial levels of glucose, insulin and C-peptide. Therefore, in our study naloxone infusion seems to have beta-endorphin-like effects in non-diabetic obese subjects by increasing their glycemic levels, with no evidence of expected insulin decrease. In diabetic obese patients we observed a trend towards decrease in glycemic values during naloxone infusion, as expected, due to insulin plasma levels increase. By these data we can hypothesise a complex regulatory role of opioids in metabolic balance in obesity. In diabetic patients, naloxone can improve the surviving insulin secretion with better glucose tolerance. In non-diabetic subjects naloxone exerts its effects, probably, on peripheral organs.
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PMID:Naloxone effects on post-prandial glucose, insulin and C-peptide levels in obese subjects. 771 83

Numerous hypothalamic peptides are involved in the control of eating behaviour. We assessed plasma and cerebrospinal fluid (CSF) levels of SRIH, beta-endorphin (beta-EP), CRH, NPY and GHRH in a group of massively obese patients and in normal weight subjects. In the obese patients, CSF SRIH and beta-EP levels were significantly reduced and increased, respectively, compared with controls (20.6 +/- 2.62, mean +/- s.e.m., vs 34.5 +/- 2.14 pg/ml, P < 0.05, for SRIH and 111.2 +/- 5.00 vs 80.4 +/- 5.32 pg/ml, P < 0.001, for beta-EP). Considering the data of obese and control subjects altogether, SRIH and beta-EP concentrations correlated negatively and positively, respectively, with BMI values (r = -0.641, P < 0.005 and r = 0.518, P < 0.05). No significant differences were observed in CSF levels of CRH, NPY and GHRH between obese and normal weight subjects, though GHRH levels were close to the assay sensitivity. CSF concentrations of CRH were positively correlated with those of SRIH in obese patients (r = 0.60, P < 0.05) and with those of NPY both in obese (r = 0.69, P < 0.02) and in control subjects (r = 0.83, P < 0.005). Plasma levels of SRIH, beta-EP, NPY and GHRH did not differ significantly in the two groups of subjects; plasma CRH was undetectable. Our results argue against the hypothesis of an enhanced SRIH tone as the cause of impaired GH secretion in obese patients, a primary defect in GHRH or GH release seems more likely. Moreover, they emphasise the importance of an increased tone of endogenous opioids in the pathophysiology of human obesity.
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PMID:Cerebrospinal fluid and plasma concentrations of SRIH, beta-endorphin, CRH, NPY and GHRH in obese and normal weight subjects. 771 86

The mouse agouti coat color gene encodes a novel paracrine signaling molecule whose pulsatile expression produces a characteristic pattern of banded pigment in individual hairs. Several spontaneous agouti alleles produce adult-onset obesity and diabetes, and have provided important single-gene animal models for alterations in energy metabolism. Utilizing linkage groups conserved between mice and humans, we have cloned the human homolog of the mouse agouti gene from a human chromosome 20 yeast artificial chromosome known to contain S-adenosyl homocysteine hydrolase (AHCY). The human agouti gene, named Agouti Signaling Protein (ASP), encodes a 132 amino acid protein, the mRNA for which is expressed in testis, ovary, and heart, and at lower levels in liver, kidney, and foreskin. As predicted by the interactions of mouse agouti with the extension gene (which encodes the melanocyte receptor for alpha-melanocyte stimulating hormone [alpha-MSH]), expression of ASP in transgenic mice produces a yellow coat, and expression of ASP in cell culture blocks the alpha-MSH-stimulated accumulation of cAMP in mouse melanoma cells. The localization of ASP relative to other loci on chromosome 20 excludes it as a candidate for the MODY1 locus, a gene responsible for one form of early-onset non-insulin-dependent diabetes mellitus or maturity-onset diabetes of the young. The expression of ASP in human tissues suggests a function for agouti homologs in species that do not exhibit the characteristic phenotype of banded hairs.
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PMID:Structure and function of ASP, the human homolog of the mouse agouti gene. 775 71

Virtually every metabolic disorder characterized by elevated plasma free fatty acid (FFA) levels is also associated with hypercorticoidism. For example, the glucocorticoid response to insulin-hypoglycemia is shown in this report to be greatly potentiated in Type I diabetic rats. Since glucocorticoids (corticosterone, in rats) potentiate lipolysis and promote gluconeogenesis, they exacerbate diabetes. We found that elevation of circulating FFA levels in normal rats (via Intralipid/heparin infusion) increased plasma levels of adrenocorticotropic hormone (ACTH) and corticosterone, and resulted in hyperglycemia. In vitro, however, cultured pituitary cells were relatively unaffected by FFA except at very high concentrations. Neither basal ACTH secretion nor the ACTH response to corticotropin-releasing hormone (CRH) was affected by pathophysiological molar ratios of FFA:BSA. Thus, the ACTH secretory response to FFA in vivo likely is mediated via neuroendocrine activation. Cultured adrenocortical cells, however, were stimulated by oleic acid and, to a lesser extent, by linoleic acid; saturated fatty acids were without effect. The latencies of oleic acid-induced steroidogenesis in vitro and Intralipid-induced corticosterone secretion in vivo were both about 60 min. We conclude that pathophysiological levels of circulating FFA (typical of diabetes, obesity, starvation, and consumption of high-fat diets) initiate a positive feedback loop between the adipocyte and the HPA axis, which ultimately exacerbates the symptoms of these disorders.
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PMID:Regulation of pituitary-adrenocortical activity by free fatty acids in vivo and in vitro. 778 56

To study the impact on glucose handling of the observed hyperinsulinaemia and hypercorticism of the genetically obese fa/fa rats, simplified animal models were used. In the first model, normal rats were exposed to hyperinsulinaemia for 4 days and compared to saline-infused controls. At the end of this experimental period, the acute effect of insulin was assessed during euglycaemic-hyperinsulinaemic clamps. White adipose tissue lipogenic activity was much more insulin responsive in the "insulinized" than in the control groups. Conversely muscles from "insulinized" rats became insulin resistant. Such divergent consequences of prior "insulinization" on white adipose tissue and muscle were corroborated by similar divergent changes in glucose transporter (GLUT 4) mRNA and protein levels in these respective tissues. In the second model, normal rats were exposed to stress levels of corticosterone for 2 days. This resulted in an insulin resistance of all muscle types that was due to an increased glucose-fatty acid cycle, without measurable alteration of the GLUT 4 system. In genetically obese (fa/fa) rats, local cerebral glucose utilization was decreased compared to lean controls. This could be the reason for adaptive changes leading to increased levels in their hypothalamic neuropeptide Y levels and median eminence corticotropin-releasing-factor. Thus, in a third model, neuropeptide Y was administered intracerebroventricularly to normal rats for 7 days. This produced hyperinsulinaemia, hypercorticosteronaemia, as well as most of the metabolic changes observed in the genetically obese fa/fa rats, including muscle insulin resistance. These data together suggest that the aetiology of obesity-insulin resistance of genetically obese rodents has to be searched within the brain, not peripherally.
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PMID:Central nervous system and peripheral abnormalities: clues to the understanding of obesity and NIDDM. 782 33


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