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:P01275 (glucagon)
26,492 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Several peptide hormones are effective when administered intranasally (in); these include oxytocin, vasopressin, insulin, glucagon, and calcitonin. With regard to GHRH and CRH, previous studies demonstrated that their bioavailability following in administration was very low. In this study we evaluated the serum GH response to 50 micrograms GHRH iv and to 700 micrograms GHRH in, the latter given alone and with 5 and 15 mg sodium-glycocholate (SGC), a surfactant, in six normal men. The bioavailability of in GHRH, calculated as net GH secretory area, was very low, and increased to 7% that of iv GHRH when SGC was used. In the same men, 50 micrograms CRH was administered both iv and in, alone and with 5 and 15 mg SGC. The bioavailability of in CRH, calculated as net cortisol secretory area, was very low and increased to 100% that of iv CRH when 15 mg SGC was used. These data indicate that the efficacy of GHRH and CRH administered in is significantly augmented by SGC.
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PMID:Effect of intranasal growth hormone-releasing hormone and corticotropin-releasing hormone administration on growth hormone and cortisol release: improved bioavailability by means of sodium-glycocholate. 249 80

Some studies have indicated that insulin was able to increase the level of free cytosolic calcium in adipocytes [e.g. 7]. The present study was designed to examine this phenomenon. Insulin did not increase free cytosolic calcium, however oxytocin, vasopressin, alpha-adrenergic agonists and ATP did increase free cytosolic calcium in adipocytes. Other agonists which also did not alter calcium were epidermal growth factor, angiotensin II, glucagon, and beta-adrenergic agonists. The effect of oxytocin at increasing free cytosolic calcium was inhibited by activation of protein kinase C with phorbol 12-myristate 13-acetate and by ADP ribosylation of a Gi like protein with islet activating protein. The hormones that did increase cytosolic free calcium did so by mobilizing internal calcium and by promoting calcium influx. Even though insulin did not increase free cytosolic calcium, it was able to attenuate the alpha-adrenergic mediated increase in cytosolic free calcium. The fact that certain hormones can increase the level of the second messenger calcium in adipocytes implies that it may be a key intracellular regulator of adipocyte function as it is in many other tissues.
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PMID:Effect of hormones on cytosolic free calcium in adipocytes. 251 19

The ontogeny of oxytocin receptors in rat forebrain was studied using the selective oxytocin receptor antagonist 125I-d(CH2)5[Tyr(Me)2, Thr4, Tyr-NH29]OVT [( 125I]-OTA). With in vitro receptor autoradiography, binding wa noted on the first postnatal day in dorsal subiculum and thalamus. On postnatal days 5-18, intense labeling was evident in posterior cingulate cortex, dorsal subiculum, lateral septum, and the CA1 subfield of hippocampus. Of these regions only the lateral septum expressed oxytocin receptors in adult brain. Competition studies on coronal sections through posterior cingulate, septum, and dorsal subiculum at P10 demonstrated that transient binding sites in these areas were indeed oxytocin selective (OXY greater than AVP greater tha V1 greater than V2). Result of saturation studies on cingulate membranes from 10-day-old pups agreed favorably with previous reports of the kinetics of [125I]-OTA binding to adult oxytocin receptors (Kd = 0.1 nM in P10 cingulate cortex vs. 0.07 nM for adult ventral subiculum). In contrast to these evanescent developmental sites, oxytocin receptors in the bed nucleus of the stria terminalis and the ventromedial nucleus of the hypothalamus only appeared in adulthood, presumably in response to the surge of gonadal steroids at puberty.
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PMID:Ontogeny of oxytocin receptors in rat forebrain: a quantitative study. 255 21

The aim of the present study was to investigate whether plasma levels of gastrin, somatostatin, insulin, oxytocin, VIP and blood glucose levels vary during the menstrual cycle. Therefore, 19 healthy menstruating women (5 of whom were on low-dose oral contraceptives, o.c.) were blood sampled every second to third day during the menstrual cycle. Hormone levels were measured with radio-immunoassay. Gastrin, insulin, VIP and blood sugar levels remained unchanged during the menstrual cycle. Mean somatostatin levels were significantly lower in women receiving o.c. than in women without such medication (p less than 0.05). In women on o.c., somatostatin concentrations were also significantly lower during the menstrual week, than during the rest of the period (p less than 0.01), but in women without o.c., no such change occurred. Mean oxytocin levels were significantly higher in women on o.c. (p less than 0.001) and in these women, oxytocin levels recorded during the menstrual week were significantly lower than during the rest of the period (p less than 0.02). Systolic and diastolic blood pressure values were also significantly higher in women on o.c. (p less than 0.05 and p less than 0.01). In conclusion, these data show that basal plasma concentrations of gastrin, somatostatin, VIP, insulin and glucagon do not vary during the menstrual cycle. However, ingestion of low-dose oral contraceptives causes a significant decrease of somatostatin concentrations and a significant increase in oxytocin levels, suggesting that low doses of estrogens and/or gestagens may influence digestive and metabolic processes.
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PMID:Plasma levels of gastrin, somatostatin, VIP, insulin and oxytocin during the menstrual cycle in women (with and without oral contraceptives). 257 93

The cytoarchitecture and immunocytochemical distribution of neuropeptides (corticotropin-releasing factor, CRF; neuropeptide Y, NPY; oxytocin, OXY; vasopressin, VP; and vasoactive intestinal polypeptide, VIP) were studied in the hypothalamic suprachiasmatic nuclei (SCN) in male and female ground squirrels of two species (Spermophilus tridecemlineatus and S. richardsonii). Immunoreactive (IR) perikarya were found in sections incubated with VP or VIP antisera. VP-IR cell bodies were seen in the dorsal and medial parts of the nucleus in colchicine-treated animals. IR fibers were distributed throughout the SCN. In the ventral part of the nucleus, VIP-IR cells were seen in untreated animals and were more pronounced in colchicine-treated animals. VIP-IR fibers and terminals form a dense plexus throughout the nucleus. Furthermore, NPY-IR terminals and fibers with multiple varicosities, but no IR perikarya, were present in the suprachiasmatic nuclei. Within the borders of the SCN, no cell bodies or fibers were stained with CRF or OXY antisera in any animal.
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PMID:Immunohistochemical evidence for the presence of neuropeptides in the hypothalamic suprachiasmatic nucleus of ground squirrels. 258 47

The aim of the present study was to investigate how infusion of gastrin-17 and oxytocin affects plasma levels of insulin, glucagon and glucose in order to elucidate how the two hormones contribute to metabolic changes seen in situations where they are released, e.g. feeding and suckling during lactation. Thus, gastrin-17 (0.5 and 2.0 nmol kg-1 h-1) and oxytocin (0.11 and 1.1 nmol kg-1 h-1) were infused separately or simultaneously into conscious dogs. Both gastrin-17 and oxytocin induced significant, dose-dependent increases in insulin levels. An additive effect on insulin levels was obtained when gastrin-17 and oxytocin were infused simultaneously. Glucagon levels were not affected by gastrin-17 whereas infusion of 1.1 nmol kg-1 h-1 of oxytocin was followed by a significant increase. In contrast to a slight transient increase in the glucose level induced by oxytocin, infusion of gastrin-17 caused a sustained period of hypoglycaemia. Thus, infusion of gastrin-17 and oxytocin, respectively, gave rise to different ratios between circulating concentrations of insulin and glucagon reflected in different effects on the glucose level. The gastrin-induced hypoglycaemia could reflect that gastrin, via a release of insulin, promotes storing of glucose, e.g. in connection with feeding. That infusion of oxytocin caused a parallel increase in insulin and glucagon levels together with a slight increase in the glucose level could imply that oxytocin favours mobilization of glucose, e.g. during lactation.
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PMID:Interaction between gastrin-17 and oxytocin on plasma levels of insulin, glucagon and glucose in conscious dogs. 266 Apr 89

In adults of several species arginine vasopressin (AVP) and oxytocin (OT) stimulate pancreatic secretion of immunoreactive plasma glucagon (IRG). In fetal sheep AVP is an important stress hormone and may be simultaneously secreted with OT; however, their effects on IRG secretion are not known. We sought to determine if AVP and/or OT affected pancreatic IRG secretion in fetal and neonatal sheep. Either AVP or OT was infused for 30 min in chronically catheterized fetal and neonatal sheep, obtaining peripheral arterial and/or portal venous blood samples before; 10, 15, and 30 min during; and 15, 30, and 60 min after infusion for measurements of blood gases, hematocrit, IRG, immunoreactive plasma insulin (IRI) and plasma glucose. AVP did not affect IRG or IRI in fetal sheep (mean +/- SE, 133 +/- 1 days gestation), but small increases occurred in portal venous blood of lambs (2-49 days old). In contrast, OT (4.6 +/- 0.3 mU/min.kg; n = 12) increased fetal plasma IRG from 72 +/- 5 to 86 +/- 6 and 97 +/- 7 pg/ml (P less than 0.001) and IRI from 16 +/- 2 to 20 +/- 3 and 20 +/- 2 microU/ml (P less than 0.02) at 15 and 30 min, respectively; 157 +/- 11 microU OT/min.kg had no effect. In lambs (2-49 days old), 3.0 mU OT/min.kg increased arterial (n = 15) IRG from 139 +/- 19 to 367 +/- 43 and 483 +/- 76 pg/ml (P less than 0.01) and portal IRG (n = 8) from 167 +/- 39 to 341 +/- 72 and 502 +/- 148 pg/ml (P less than 0.01), respectively. Arterial and portal IRI also rose (P less than 0.01) from 36 +/- 4 to 82 +/- 12 and 105 +/- 32 microU/ml and from 29 +/- 5 to 65 +/- 13 and 51 +/- 7 microU/ml, respectively. Glucose was unchanged in all experiments. In fetal and neonatal sheep, AVP has minimal effects on IRG and IRI release. In contrast, OT increases both substantially; furthermore, there is a difference in fetal and neonatal responsiveness. OT may be important in modulating glucagon and insulin secretion during and after parturition.
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PMID:Oxytocin stimulates glucagon and insulin secretion in fetal and neonatal sheep. 267 81

In insulin-dependent (type 1) diabetic subjects (n = 7) with intact hormone response to hypoglycaemia, oxytocin infusion (0.2 mU/min over 60 min) produced significant rises in basal plasma glucagon and adrenaline levels, while it reduced basal plasma cortisol levels. During insulin-induced hypoglycaemia, oxytocin potentiated the increases in plasma glucagon and adrenaline, while an inhibitory effect on plasma cortisol levels was still present. In insulin-dependent (type 1) diabetic subjects (n = 7) with blunted counter-regulatory hormone response to hypoglycaemia, the same dose of oxytocin (0.2 mU/min over 60 min) increased basal plasma glucose and glucagon concentrations and lowered basal plasma cortisol concentration. In the same group of patients, oxytocin delivery (0.2 mU/min), simultaneously to an insulin-induced hypoglycaemia, produced a significant elevation of plasma glucagon and adrenaline concentrations thus enhancing glucose recovery from hypoglycaemia. In conclusion, in insulin-dependent (type 1) diabetic patients, oxytocin delivery enhances plasma glucagon and adrenaline levels in basal conditions and during insulin-induced hypoglycaemia.
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PMID:Effects of oxytocin delivery on counter-regulatory hormone response in insulin-dependent (type 1) diabetic subjects. 269 10

The effect of both lipolytic and antilipolytic hormones on the turnover of phosphatidylcholine in freshly isolated rat adipocytes was investigated. Treatment of adipocytes with agonists such as glucagon or isoprenaline that stimulate lipolysis through a cyclic AMP-dependent mechanism caused an increase in the incorporation of [Me-3H]choline into phosphatidylcholine. Pulse-chase studies indicated that the stimulation was due to an increase in the conversion of choline into phosphatidylcholine, which was both time- and dose-dependent. The stimulatory effect of isoprenaline was inhibited in a dose-dependent manner by oxytocin or insulin. Oxytocin inhibited the incorporation of [Me-3H]choline into phosphatidylcholine in both the presence and the absence of isoprenaline, whereas in the absence of isoprenaline insulin increased the incorporation of [Me-3H]choline into phosphatidylcholine. The effects of isoprenaline, oxytocin and insulin on the incorporation of [3H]choline into phosphatidylcholine were paralleled by changes in the activity of CTP:phosphocholine cytidylyltransferase.
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PMID:Hormonal regulation of phosphatidylcholine synthesis by reversible modulation of cytidylyltransferase. 284 24

Injections and infusions of oxytocin into conscious dogs caused an increase in plasma concentrations of glucose, insulin and glucagon. When blood glucose was clamped at a raised level the injection of oxytocin still increased insulin and glucagon concentrations in plasma. Infusion of somatostatin suppressed plasma concentrations of glucagon and insulin but did not prevent oxytocin-induced increments in blood glucose. Injection of oxytocin still caused a marked release of glucagon, whereas the insulin response was greatly diminished. When endogenous insulin and glucagon secretion was suppressed by infusion of somatostatin and glucose levels were stabilized by concomitant infusions of glucagon and insulin, injections of oxytocin did not alter blood glucose concentrations. It is concluded that the increase in blood glucose following the administration of oxytocin is secondary to the release of glucagon and that oxytocin exerts a direct stimulatory effect on glucagon and possibly insulin secretion.
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PMID:The mechanism of the effect of oxytocin on plasma concentrations of glucose, insulin and glucagon in conscious dogs. 286 96


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