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)

We report a case of double male syndrome, a type of Klinefelter's syndrome with 48,XXYY chromosome, associated with acromegaloidism. Although the patient presented acromegalic appearance, he did not show hypersecretion of growth hormone (GH). GH provocation tests revealed a rather low GH responses or no responses. After testosterone therapy, the GH responses were normalized except to Insulin tolerance test (ITT). On the other hand, the plasma corticotropin (ACTH) and cortisol levels were decreased paradoxically after hypoglycemia. Testosterone therapy did not restore this ACTH response. It was speculated that these abnormal GH and ACTH responses to hypoglycemia might indicate another congenital anomaly.
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PMID:48,XXYY syndrome associated with acromegaloidism. 838 24

Acute glucoprivation profoundly stimulated hypothalamic-pituitary-adrenocortical (HPA) and adrenomedullary outflows. Whether these responses reflect a single central mechanism regulated by corticotropin-releasing hormone (CRH) has been unclear. This study examined the role of endogenous CRH in HPA and adrenomedullary responses to hypoglycemia in Sprague-Dawley rats, by using anti-CRH immune serum or a CRH antagonist (alpha-helical h/r CRH9-41, and in Lewis rats, a strain characterized by deficient hypothalamic CRH responses during stress. In conscious Sprague-Dawley rats with indwelling arterial and venous cannulas, insulin (0.3 U/kg was injected iv, and responses of serum glucose concentrations and plasma levels of corticotropin (ACTH) and catechols (including epinephrine, EPI; norepinephrine, NE; dihydroxyphenylalanine, DOPA; dihydroxyphenylglycol, DHPG; and dihydroxyphenylacetic acid, DOPAC) were assessed, with or without pretreatment with anti-CRH immune serum (0.5 or 1.0 ml iv or 10 microl icv) or alpha-helical h/r CRH9-41 (130 nmol iv or 13 nmol icv). Responses to insulin (1.0 U/kg iv) were also measured in conscious juvenile Lewis and Fischer 344/N rats. Insulin-induced hypoglycemia markedly increased plasma levels of EPI and ACTH in all groups. Pretreatment iv with 1/0 ml of anti-CRH immune serum blocked the ACTH response to insulin but failed to attenuate the EPI response. alpha-helical h/r CRH9-41, whether given iv or icv, failed to alter ACTH or EPI responses to insulin, although the antagonist did block EPI responses to icv CRH. Hypoglycemia elicited similar increments in ACTH levels in Lewis rats and Fischer 344/N control rats; and although Lewis rats had lower baseline EPI and smaller responses of NE, DHPG, DOPA, and DOPAC levels, the groups did not differ in proportionate increments in EPI levels. The results indicate that the ACTH response to hypoglycemia depends on availability of CRH outside the blood-brain barrier--presumably in the pituitary gland. The findings with icv alpha-helical h/r CRH9-41 can be explained by failure of the antagonist to reach effective concentrations at central sites of action of endogenous CRH, or by mechanisms other than CRH release determining the adrenomedullary response to hypoglycemia. Lewis rats seem to have less adrenomedullary secretion at baseline and smaller responses of NE synthesis and release during hypoglycemia than do Fischer 344/N rats. Neurochemical evidence for differential adrenomedullary and sympathoneural responses during hypoglycemia in all three rat strains is inconsistent with Cannon's view of a functionally unitary sympathoadrenal system. Lewis rats have deficient CRH responses to some stressors but not to others, or else pituitary-adrenomedullary responses in this setting depend on mechanisms other than CRH release in the brain. Both explanations are inconsistent with the doctrine of non-specificity, the main tenet of Selye's stress theory.
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PMID:Role of CRH in glucopenia-induced adrenomedullary activation in rats. 868 Apr 14

Previous investigations have demonstrated that peripheral insulin has a significant influence on brain function and that the interaction of insulin with neuropeptides in neuroendocrine regions may be pivotal for the regulation of body metabolism and energy balance. Since the various levels of interactions are only incompletely known, the focus of the present study has been the adenohypophysis of the rat, in which the presence and localization of insulin receptors and the structurally and functionally closely related insulin-like growth factor-1 (IGF-1) receptor has been investigated by light- and electron-microscopic immunocytochemistry. The two receptors are found on separate subpopulations of secretory cells of the pars distalis with a preponderance of IGF-1 receptors in a postero-lateral portion of large endocrine cells, insulin receptors being more widely dispersed throughout the pars distalis in a population of smaller, irregularly shaped cells. Insulin receptors, but not IGF-1 receptors, are also located in a subpopulation of secretory cells in the intermediate lobe. Phosphotyrosine, a marker for substrates of receptor tyrosine kinases, has been detected in numerous cells throughout the anterior and intermediate lobe, including the cell populations containing insulin or IGF-1 receptors, indicating their ability to transduce biological signals in the pituitary in vivo. Almost 90% of cells containing insulin receptors are also immunoreactive for beta-endorphin. In contrast, IGF-1 receptors are almost exclusively located on cells secreting follicle-stimulating hormone, suggesting a regulatory role of IGF-1 in the pituitary gonadotropin system. The relationship between beta-endorphin and insulin receptors provides further evidence for the hypothesis that peripheral insulin acts as a regulatory hormone in the control of body energy homeostasis via various steps of the neuroendocrine axis, including opioid peptides in the hypothalamus and pituitary known to play an important role in the regulation of feeding behaviour.
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PMID:Insulin receptors in the pituitary gland: morphological evidence for influence on opioid peptide-synthesizing cells. 913 60

Insulin-induced hypoglycemia inhibits luteinizing hormone (LH) secretion and has been used as a model to study stress-induced inhibition of reproductive function. Endogenous opioid peptides have been implicated in mediating the inhibitory effect of hypoglycemia on LH secretion in sheep and rat. The objective of the present study was to determine if corticotropin-releasing hormone (CRH) and endogenous opiates are involved in the LH response to hypoglycemia in the nonhuman primate. Blood samples were collected at 15-min intervals for 6 h from ovariectomized rhesus monkeys (n = 6). Hypoglycemia was induced by injecting insulin 1 h after initiating blood collection. Animals were pretreated 15 min prior to insulin with either saline (n = 6), naloxone, a nonselective opiate receptor antagonist (n = 4), or alprazolam (n = 6), a potent benzodiazepine which has been shown to inhibit CRH. The LH, glucose, adrenocorticotropin (ACTH), and cortisol responses to insulin were determined. Insulin-induced hypoglycemia significantly inhibited LH secretion and increased ACTH and cortisol concentrations. Alprazolam prevented hypoglycemia-induced inhibition of LH independent of an effect on glucose concentrations. The mean (+/- SEM) LH pulse interval in response to hypoglycemia was decreased in the alprazolam pretreated group compared to the saline pretreated group (77.4 +/- 6.0 vs. 130.0 +/- 18.4 min), while LH pulse amplitude and mean LH levels were significantly increased (56.2 +/- 7.1 vs. 28.3 +/- 5.5 ng/ml, and 105.6 +/- 14.4 vs. 60.9 +/- 12.1 ng/ml respectively). In contrast, naloxone did not prevent hypoglycemia-induced LH inhibition. The mean LH pulse interval, LH pulse amplitude, and LH concentration in the naloxone pretreated monkeys were 152.1 +/- 33.4 min, 37.1 +/- 8.9 ng/ml, and 63.7 +/- 9.1 ng/ml respectively. Alprazolam pretreatment also markedly attenuated the ACTH response to hypoglycemia whereas the cortisol response was only moderately affected. We conclude that insulin-induced hypoglycemia in the monkey inhibits LH secretion through a mechanism involving CRH but not endogenous opiates.
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PMID:Hypoglycemia-induced inhibition of LH and stimulation of ACTH secretion in the rhesus monkey is blocked by alprazolam. 915 66

This study was designed to examine the effects of in vivo hyperthermia on the circulating concentrations of a number of glucoregulatory hormones potentially involved in immunomodulation. Eight healthy male volunteers were immersed for 2 h in a hot water bath (water temperature 39.5 degrees C) (WI) during which period their rectal temperature rose to 39.5 degrees C. In a control study the subjects were immersed in thermoneutral water (water temperature 34.5 degrees C). Blood samples were collected before, at body temperature 38 degrees C (42.5 (30-52), median and range), minutes of hot WI, 39 degrees C (72.5 (58-97) minutes of hot WI), and 39.5 degrees C (at the end of 2 h of hot WI), as well as 1 and 2 h after cessation of 2 h of hot WI. In the control experiment blood samples were collected at identical time points. The growth hormone concentrations were elevated already at 38 degrees C to 24.2 (3.9-55.0) mU/l and peaked at 39 degrees C to 48.4 (20.8-81.5) mU/l compared to 0.3 (0.3-9.0) mU/l at baseline; at 39.5 degrees C the concentration declined to 31.6 (13.0-48.0) mU/l and further to 7.4 (0.8-17.3) mU/l 1 h after ending hot WI. The beta-endorphin levels were augmented at 39 degrees C and 39.5 degrees, to 8.0 (3.4-27.8) pmol/l and 8.1 (3.1-44.6) pmol/l, respectively, from 2.2 (0.7-5.6) pmol/l baseline. Glucagon levels raised from 23.0 (12.0-32.0) pmol/l to 32.0 (24.0-52.0) pmol/l at 39 degrees C, and to 38.5 (26.0-57.0) pmol/l at 39.0 degrees C. Insulin levels remained unchanged. Plasma glucose increased from 4.75 (4.2-7.6) mmol/l to 5.20 (4.6-5.6) mmol/l alone after 90 min of WI (temperature 39-39.5 degrees C). It is concluded that in vivo whole body WI hyperthermia increases the circulating levels of several essential glucoregulatory hormones.
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PMID:The response on glucoregulatory hormones of in vivo whole body hyperthermia. 927 70

Young female rats of 160-180 g were implanted with osmotic minipumps releasing 3.0 micromol/day per kg of oleoyl-oestrone in liposomes (Merlin-2) into the bloodstream for up to 14 days. Merlin-2 induced a loss of appetite in the first days, later recovered, and a decrease in body weight of 7%, which contrasts with the 15% increase in controls during the 2-week period. Neither plasma glucose nor urea was affected by treatment, but liver glycogen increased by 50% in 14 days. Insulin decreased slightly with Merlin-2 treatment. Plasma corticotropin (ACTH) and corticosterone showed a transient increase by day 6 of treatment. The expression of the ob gene in adipose tissue fell during the period studied to practically nil on day 14; circulating leptin levels decreased more than 70% from day 1 to day 14. Oestrone levels increased from 0.3 nM (controls) to a maintained 40-60 nM level for the rest of the experiment. Oleoyl-oestrone levels first increased 4-fold, to decrease again to the initial levels on day 10, increasing later to 100-fold on day 14. The three phases observed in food intake, weight loss and oleoyl-oestrone levels match fairly well, which supports the direct involvement of oleoyl-oestrone in body-weight control. However, the control of oleoyl-oestrone levels seems to be mediated in part by corticosterone. The practical disappearance of leptin synthesis coincides with the massive accumulation of oleoyl-oestrone in plasma. The results presented suggest the involvement of oleoyl-oestrone in the main mechanisms of control of body weight and its regulation by glucocorticoids and leptin.
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PMID:Short-term treatment with oleoyl-oestrone in liposomes (Merlin-2) strongly reduces the expression of the ob gene in young rats. 929 Nov 5

Insulin-deficient diabetic rats are markedly hyperphagic when fed a high-carbohydrate (HC) diet, but normophagic when fed a high-fat (HF) diet. When maintained on a HC diet, diabetic rats also exhibit increased gene expression of the orexigenic peptide neuropeptide Y (NPY) in the hypothalamic arcuate nucleus, and reduced expression of the anorectic peptide corticotropin-releasing hormone (CRH) in the paraventricular nucleus, and these changes are hypothesized to contribute to diabetic hyperphagia. In this experiment we assessed whether the normophagia displayed by HF-fed diabetic rats is associated with the opposite profile of NPY and CRH expression. Our results show that relative to diabetic rats on the HC diet, the diabetic rats on the HF diet exhibited significantly reduced caloric intake (-40%), NPY expression in the arcuate nucleus (-27%), and elevated CRH expression in the paraventricular nucleus (+37%). Insulin and corticosterone, which are known to affect hypothalamic NPY and CRH expression, were not different between these two groups, making it unlikely that they can account for the differences in either feeding behavior or hypothalamic peptide expression. There was a small but significant increase in plasma leptin levels in the diabetic animals maintained on the HF, and large differences in parameters associated with elevated fat oxidation. These observations support the hypothesis that the normalization of food intake observed in diabetic rats consuming a HF diet may in part be mediated by reductions in NPY expression and elevations in CRH expression.
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PMID:Effect of a high-fat diet on food intake and hypothalamic neuropeptide gene expression in streptozotocin diabetes. 966 75

Effects of streptozotocin (STZ)-induced diabetes and insulin on opioid peptide gene expression were examined in rats. In experiment 1, three groups were administered STZ (75 mg/kg ip single injection). Two groups were killed at either 2 or 4 wk. In the third group, insulin treatment (7.0 IU/kg x 1 day for 3 wk) was initiated 1 wk after STZ injection. STZ induced hyperphagia and reduced weight gain. Insulin decreased food intake and increased body weight relative to diabetes. Proopiomelanocortin (POMC) mRNA in arcuate nucleus (Arc) and pituitary decreased in diabetes and normalized after insulin treatment. Prodynorphin (proDyn) mRNA increased in diabetes and normalized in the pituitary after insulin but not in the Arc. Diabetes did not alter proenkephalin (proEnk) expression in the Arc or pituitary, nor dynorphin A1-17 or beta-endorphin in paraventricular nucleus (PVN). alpha-Melanocyte-stimulating hormone (alpha-MSH) peptide levels were decreased in the PVN and normalized following insulin treatment. Diabetes increased Arc neuropeptide Y mRNA, and insulin suppressed this increase. In experiment 2, insulin (2.5 IU/kg sc) daily for 1 wk in normal rats increased Arc POMC mRNA, but not proDyn and proEnk mRNA. These results suggest that Arc POMC expression and PVN alpha-MSH peptide levels decrease in diabetes. Also, insulin may influence Arc and pituitary POMC activity in neurons that regulate energy metabolism.
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PMID:STZ-induced diabetes decreases and insulin normalizes POMC mRNA in arcuate nucleus and pituitary in rats. 1023 22

Insulin and leptin are hypothesized to be 'adiposity signals' for the long-term regulation of body weight by the brain. Accordingly, a change in the plasma levels of leptin or insulin indicates a state of altered energy homeostasis and adiposity, and the brain responds by adjusting food intake to restore adipose tissue mass to a regulated level. The candidate site for the brain's detection of leptin adiposity signaling is the hypothalamic arcuate nucleus, where leptin inhibits expression neuropeptide Y and increases expression of the pro-opiomelanocortin (POMC) precursor of alphaMSH. Insulin also inhibits arcuate nucleus expression of neuropeptide Y but its effects on other hypothalamic signaling systems are not known. Leptin-responsive neurons in the arcuate nucleus are hypothesized to project to the paraventricular nucleus and lateral hypothalamic area where they are proposed to influence the expression of peptides that regulate food intake. Future development of this model will incorporate brain pathways for integration of leptin and insulin adiposity signaling to the hypothalamus with meal-related signals that act in the caudal brainstem. Recent research showing that leptin and insulin enhance the satiety action of peripheral CCK, thereby causing meals to be terminated earlier and reducing cumulative food intake, suggests that hypothalamic pathways that are sensitive to leptin and insulin adiposity signals have anatomical connections with caudal brainstem neurons that respond to meal-related signals and regulate meal size. The recent findings that insulin alters the expression and function of neural transporters for dopamine and norepinephrine indicate that adiposity signals may influence food intake by acting on non-peptide neurotransmitter systems.
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PMID:Insulin and leptin: dual adiposity signals to the brain for the regulation of food intake and body weight. 1061 3

We have previously observed significant, albeit decreased, corticosterone responses to restraint stress in corticotropin releasing hormone (CRH)-deficient (knockout, CRH KO) mice. Because different stressors have been shown to engage different populations of hypophysiotropic neurons, we have used hypoglycemia and hypovolemia to test whether CRH-independent pituitary-adrenal activation is evoked by stimuli other than restraint. Insulin injection in fasted CRH KO mice elicited increases in corticosterone that were markedly lower than those in wild type but marginally significant relative to corresponding KO controls. Consistent with impaired adrenocortical function, hypoglycemia-induced epinephrine secretion was reduced in female CRH KO mice. Hypovolemia produced by retro-orbital bleeding also significantly elevated corticosterone in CRH KO mice. In contrast to significant stress-induced increases in corticotropin (ACTH) in wild-type mice, those in CRH KO mice were slight, transient and difficult to detect without frequent sampling. Restraint-induced interleukin-6 (IL-6) levels were similar between wild-type and CRH KO mice, arguing against compensatory changes in IL-6 responses to restraint due to CRH deficiency. CRH infusion enhanced adrenocortical responses to restraint independently of effects on basal corticosterone levels, suggesting that pituitary-adrenal activity is augmented by factors besides CRH during stress. We conclude that although stress-induced pituitary-adrenal activity does not require acute increases in CRH, CRH is required to support the normal amplitude of adrenocortical axis responsiveness to other endocrine or neural factors during stress.
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PMID:CRH deficiency impairs but does not block pituitary-adrenal responses to diverse stressors. 1068 22


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