Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P61278 (somatostatin)
 22,083 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effects of alpha- and beta-2-deoxy-D-glucose tetraacetate (1.7 and 8.5 mM) on insulin, somatostatin, and glucagon secretion from isolated rat pancreases perfused in the presence of 8.3 mM D-glucose were compared with those of unesterified 2-deoxy-D-glucose tested at the same two concentrations. The unesterified glucose analog caused, in a concentration-related manner, inhibition of glucose-induced insulin and somatostatin release and augmentation of glucagon secretion. The two anomers of 2-deoxy-D-glucose tetraacetate, however, increased the secretion rate of all three hormones; this effect was also related to the concentration of the esters. No obvious anomeric specificity of the secretory response to 2-deoxy-D-glucose tetraacetate was observed. These findings indicate that the insulinotropic action of hexose esters cannot be accounted for solely by the metabolic effect of their glucidic moieties. They suggest that the A, B, and D cells of the endocrine pancreas are each equipped with a receptor system responsible for the direct recognition of monosaccharide esters as secretagogues. They further support the view that a paracrine effect of insulin on glucagon-producing cells does not represent a major component in the regulation of their secretory activity.
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PMID:Stimulation by 2-deoxy-D-glucose tetraacetates of hormonal secretion from the perfused rat pancreas. 1019 5

Repaglinide, a carbamoylmethyl benzoic acid (CMBA) derivative, belongs to a new class of antidiabetic agents structurally related to meglitinide (previously known as the non-sulphonylurea moiety of glibenclamide). Repaglinide and glibenclamide exert reciprocal competitive effects on their respective binding to insulinoma cells. Repaglinide does not affect the metabolism of D-glucose or endogenous nutrients or the biosynthesis of peptides in isolated rat pancreatic islets. Repeated intragastric administration of repaglinide to normal rats increases basal and glucose-stimulated peptide biosynthesis in isolated islets. The major primary action of repaglinide in islets is the closure of ATP-sensitive K+ channels. This agent decreases 86Rb outflow from prelabelled islets perifused in the absence of any exogenous nutrient and protects beta-cells against the inhibitory action of a diazoxide analogue on glucose-stimulated insulin release. The decrease in K+ conductance coincides with stimulation of Ca2+ influx into the islet cells. Meglitinide and its analogues stimulate insulin release more efficiently in the presence of D-glucose or other nutrient secretagogues than in their absence. They are efficient insulinotropic agents in animal models of Type 2 diabetes or in animals infused for 48 h with a hypertonic solution of D-glucose. Repaglinide augments somatostatin secretion, without affecting glucagon release, in isolated perfused rat pancreases exposed to D-glucose. The insulinotropic action of repaglinide was documented in vivo after intravenous or oral administration in normal or Goto-Kakizaki rats. These preclinical investigations suggest that these new insulin secretagogues are well suited as potential insulinotropic tools in the treatment of Type 2 diabetes.
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PMID:Mechanism of action of a new class of insulin secretagogues. 1052 40

Compound BP 2-94 is an orally available prodrug of the histamine H3-receptor agonist (R)-alpha-methylhistamine, which was found to produce higher plasma levels than the parent drug in humans. In the present study radioimmunoassay was carried out in dogs to investigate the generation of (R)-alpha-methylhistamine in vivo after intragastric administration of the prodrug. The effects of BP 2-94 on gastric acid secretion and on histamine, gastrin, and somatostatin release were also investigated. After intragastric administration of BP 2-94 (10 mg/kg), both the prodrug and (R)-alpha-methylhistamine were detected in plasma: plasma levels of (R)-alpha-methylhistamine decayed with a T1/2 of about 1 hr and displayed concentrations as high as 50-fold the EC50 of the drug at the H3 receptor for at least 2 hr. In conscious dogs provided with gastric fistula BP 2-94, administered at 10 and 30 mg/kg intragastrically, caused a dose-dependent inhibition (maximum reduction was about 80%) of the acid secretion stimulated by 2-deoxy-D-glucose, whereas (R)-alpha-methylhistamine (20 mg/kg, intragastrically) was ineffective. BP 2-94 (30 mg/kg, intragastrically) significantly reduced the acid secretion stimulated by bombesin, while leaving unaffected that induced by histamine. The increase in plasma gastrin levels induced by 2-deoxy-D-glucose, bombesin or a test meal was not significantly modified by BP 2-94 (30 mg/kg, intragastrically). In anesthetized dogs BP 2-94 (30 mg/kg, intragastrically) significantly reduced histamine release detected in the portal vein under bombesin infusion, whereas it did not modify gastrin and somatostatin plasma levels. These data indicate that BP 2-94 is a good prodrug of (R)-alpha-methylhistamine in the dog, causing an efficacious reduction of acid secretion induced by both 2-deoxy-D-glucose and bombesin. Moreover, the study of paracrine and hormonal mediators of acid secretion confirms that the main mechanism underlying inhibition of acid production induced by H3-receptor activation is the impairment of histamine release from gastric histaminocytes (possibly enterochromaffin-like cells).
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PMID:Gastric antisecretory effects of compound BP 2-94: a histamine H3-receptor agonist prodrug. 1063 Apr 85

We previously characterized two cDNAs that encode for distinct preprosomatostatin molecules containing [Tyr(7), Gly(10)]-somatostatin-14 at their C-termini (PPSS II' and PPSS II") and found that these cDNAs were differentially expressed in the endocrine pancreas (Brockmann body) of rainbow trout, Oncorhynchus mykiss. In this study, we examined the control of PPSSII' mRNA and PPSS II" mRNA expression by glucose. Fish injected with glucose displayed elevated plasma levels of glucose in association with nearly three-fold higher levels of PPSS II mRNAs compared to saline-injected control animals. Glucose directly stimulated the expression of both PPSS II mRNAs in vitro in a dose-dependent manner; however, glucose was a more potent stimulator of PPSS II" expression than of PPSS II' expression. The hexoses, mannose, galactose, and fructose, as well as glucose, all induced the expression of PPSS II mRNAs, whereas, sucrose and the glucose analogs, 3-o-methylglucose and 2-deoxyglucose, were without effect. In addition, the expression of PPSS II mRNAs was stimulated by dihydroxyacetone, pyruvate, lactate, acetate, and citrate. Furthermore, the expression of PPSS II mRNAs was inhibited by iodoacetate, an inhibitor of glycolysis, but was stimulated by dichloroacetate, a stimulator of Krebs cycle flux via pyruvate dehydrogenase activation. Finally, glucose-stimulated PPSS II expression was inhibited by actinomycin. These results indicate that the expression of PPSS II mRNAs in the Brockmann body of trout is regulated by nutrients such as glucose and suggest that glucose-stimulated expression of PPSS II mRNAs requires the uptake and subsequent metabolism of the sugar and is transcription sensitive.
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PMID:The expression of preprosomatostatin II mRNAs in the Brockmann bodies of rainbow trout, Oncorhynchus mykiss, is regulated by glucose. 1075 77

D-mannoheptulose was recently proposed to be transported into cells by GLUT2, whereas its hexaacetate ester may cross the plasma membrane without requiring the intervention of a specific carrier system. In the light of these proposals, the effects of unesterified D-mannoheptulose and D-mannoheptulose hexaacetate upon hormonal secretion by the perfused rat pancreas were now investigated. Unesterified D-mannoheptulose (1.7 mM) inhibited insulin release and, in most cases, somatostatin output, whereas it augmented glucagon secretion by pancreases exposed to D-glucose (3.3 mM) in the presence of the dimethyl ester of succinic acid (SAD, 10.0 mM). The heptose failed, however, to affect hormonal secretion in the sole presence of SAD. D-mannoheptulose hexaacetate (also 1.7 mM) reproduced, within limits, the effects of unesterified D-mannoheptulose in pancreases exposed to both D-glucose and SAD. In addition, however, the ester displayed a positive effect upon the secretion of the three hormones, even in the sole presence of SAD. These findings support the view that monosaccharide esters may affect the secretion of pancreatic hormones in a dual manner, linked to both the metabolic response to their glucidic moiety and a direct effect of the ester itself. Moreover, they reveal that unesterified D-mannoheptulose is able to antagonize the effect of D-glucose upon hormonal secretion even in cells claimed not to contain GLUT2. The modality by which D-mannoheptulose apparently gains access to the cytosol of these cells remains to be elucidated.
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PMID:Effects of D-mannoheptulose and its hexaacetate ester on hormonal secretion from the perfused pancreas. 1089 57

We tested the hypothesis that a lack of suppression of glucagon causes postprandial hyperglycemia in subjects with type 2 diabetes. Nine diabetic subjects ingested 50 g glucose on two occasions. On both occasions, somatostatin was infused at a rate of 4.3 nmol/kg x min, and insulin was infused in a diabetic insulin profile. On one occasion, glucagon was also infused at a rate of 1.25 ng/kg x min to maintain portal glucagon concentrations constant (nonsuppressed study day). On the other occasion, glucagon infusion was delayed by 2 h to create a transient decrease in glucagon (suppressed study day). Glucagon concentrations on the suppressed study day fell to about 70 ng/L during the first 2 h, rising thereafter to approximately 120 ng/L. In contrast, glucagon concentrations on the nonsuppressed study day remained constant at about 120 ng/L throughout. The decrease in glucagon resulted in substantially lower (P < 0.001) glucose concentrations on the suppressed compared with the nonsuppressed study days (9.2+/-0.7 vs. 10.9+/-0.8 mmol/L) and a lower (P < 0.001) rate of release of [14C]glucose from glycogen (labeled by infusing [1-14C]galactose). On the other hand, flux through the hepatic UDP-glucose pool (and, by implication, glycogen synthesis), measured using the acetaminophen glucuronide method, did not differ on the two occasions. We conclude that lack of suppression of glucagon contributes to postprandial hyperglycemia in subjects with type 2 diabetes at least in part by accelerating glycogenolysis. These data suggest that agents that antagonize glucagon action or secretion are likely to be of value in the treatment of patients with type 2 diabetes.
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PMID:Lack of suppression of glucagon contributes to postprandial hyperglycemia in subjects with type 2 diabetes mellitus. 1109 32

Somatostatin (SRIH) and its analog have been reported to act within the central nervous system to suppress the hyperglycemic response to a variety of neural stimuli. On the other hand, the hyperglycemic response to 2-deoxy-D-glucose (2-DG) injection or cold-swim stress is well demonstrated to be closely associated with an increase in hypothalamic noradrenergic neuronal activity (NNA). To evaluate whether the suppression of the hypothalamic NNA response could be involved in the central mechanism whereby a SRIH analog inhibits the hyperglycemic response, octreotide, a clinically used long-acting octapeptide SRIH analog, was administered into the third cerebral ventricle of awake rats prior to the intraperitoneal injection of 2-DG or cold-swim stress. Hypothalamic noradrenaline (NA) and its neuronal metabolite, 3,4-dihydroxyphenylethyleneglycol (DHPG), were analyzed, and the ratio of DHPG to NA was used as an index of NNA. Intracerebroventricular (i.c.v.) pretreatment with octreotide suppressed the 2-DG-induced increase in hypothalamic NNA, accompanied by the inhibition of the serum glucose, NA and adrenaline responses. This suppressive effect of octreotide was dose-dependent. Similarly, i.c.v. pretreatment with octreotide prevented the hypothalamic NNA response to cold-swim stress, accompanied by a blockade of the increases in serum glucose, NA and adrenaline. A close relationship between hypothalamic NNA and serum glucose emerged from these studies. Intraperitoneal pretreatment with octreotide had no significant effect on the hyperglycemic or hypothalamic NNA response to 2-DG injection. These findings suggest that the inhibitory effect of octreotide on the hypothalamic NNA response to 2-DG injection or cold-swim stress is associated with the simultaneous suppression of the hyperglycemic response. Supporting the concept that hypothalamic NNA contributes to the modulation of blood glucose in stressful conditions, it is suggested that the suppression of the hypothalamic NNA response is, at least in part, involved in the central mechanism by which octreotide inhibits the hyperglycemic response to 2-DG injection or cold-swim stress.
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PMID:Central suppressive effect of octreotide on the hyperglycemic response to 2-deoxy-D-glucose injection or cold-swim stress in awake rats: possible mediation role of hypothalamic noradrenergic drive. 1125 71

The ability of hyperglycemia per se to suppress endogenous glucose production (GP) is blunted in type 2 diabetes. This could be due in part to decreased glucose-induced flux through glucokinase (GK). Because fructose activates hepatic GK, we examined whether catalytic amounts of fructose could restore inhibition of GP by hyperglycemia in humans with type 2 diabetes. Glucose fluxes ([3-(3)H]glucose) were measured during euglycemia (5 mmol/l) and after abrupt onset of hyperglycemia (10 mmol/l; variable dextrose infusion) under fixed hormonal conditions (somatostatin infusion for 6 h with basal insulin/glucagon/growth hormone replacement). A total of 10 subjects with moderately controlled type 2 diabetes and 7 age- and BMI-matched nondiabetic subjects were studied on up to three separate occasions under the following conditions: without fructose (F(-)) or with infusion of fructose at two dosages: 0.6 mg/kg center dot min (low F) and 1.8 mg/kg center dot min (high F). Although GP failed to decrease in response to hyperglycemia in type 2 diabetes, the coinfusion of both doses of fructose was associated with comparable decreases in GP in response to hyperglycemia (low F = -27%, high F = -33%; P < 0.01 vs. F(-) at both dosages), which approached the 44% decline in GP observed without fructose in the nondiabetic subjects. GP responses to hyperglycemia were not altered by the addition of fructose in the nondiabetic group (low F = -47%, high F = -42%; P > 0.05 vs. F(-)). Thus, the administration of small amounts of fructose to type 2 diabetic subjects partially corrected the regulation of GP by hyperglycemia per se, yet did not affect this regulation in the nondiabetic subjects. This suggests that the liver's inability to respond to hyperglycemia in type 2 diabetes, likely caused by impaired GK activity, contributes substantially to the increased GP in these individuals.
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PMID:Fructose improves the ability of hyperglycemia per se to regulate glucose production in type 2 diabetes. 1187 57

Somatostatin analogues are potent growth hormone and glucagon inhibitors and are commonly used in the treatment of several endocrine and non-endocrine disorders. We report severe and longstanding hypoglycemia triggered by long-acting octreotide (Sandostatin LAR) in a 62-year-old women with malignant mesenchymal tumor. Hypoglycemia developed after 6 hours of octreotide injection and she was admitted to the emergency unit with sweating, tremor, palpitation and confusion. On admission, her plasma glucose level was: 17 mg/dl (normal: 65-110), cortisol: 31 microg/dl (normal: 5-25), insulin: 4.32 microIU/ml (normal: 6-27), C-peptide: 2.64 ng/ml (normal: 0.9-4.0), growth hormone: 0.06 ng/ml (normal: 0.06-5.0), insulin-like growth factor-I: 8.5 ng/ml (normal: 101-303), insulin-like growth factor binding protein-3: 1715 ng/ml (normal: 2020-3990). Intravenous dextrose infusion was given for a month to sustain normoglycemia since hypoglycemia recurred following cessation of infusion. Therefore, prednisolone, 35 mg/day was added and the parenteral dextrose infusion rate was decreased gradually and finally stopped. Normoglycemia could be maintained with prednisolone 20 mg/day. In patients prone to tumor hypoglycemia, long-acting octreotide may trigger severe and prolonged hypoglycemia due to suppression of counter-regulatory hormones; clinical trial with short-acting octreotide may be warranted to predict and prevent this life-threating complication.
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PMID:Severe and prolonged hypoglycemia triggered by long-acting octreotide in a patient with malignant mesenchymal tumor: case report. 1267 21

In our continuing program exploring glucose-based peptidomimetics of somatostatin (SRIF-14), we sought to improve the water solubility of our glycosides. This led to insights into the nature of the ligand binding sites at the SRIF receptor. Replacement of the C4 benzyl substituent in glucoside (+)-2 with pyridinylmethyl or pyrazin-2-ylmethyl congeners increased water solubility and enhanced affinity for the human SRIF subtype receptor 4 (sst4). We attribute this effect to hydrogen bond formation. The pyridin-3-ylmethyl substituent at C4, when combined with the imidazol-4-ylmethyl group at C2, generated (-)-19, which has the highest affinity of a glucose-based peptidomimetic at a human SRIF receptor to date (K(i) 53 +/- 23 nM, n = 6 at sst4). The C4 heterocyclic congeners of glucosides bearing a 1-methoxy substituent rather than an indole side chain at the anomeric carbon, such as (+)-16, also provided information about the Trp(8) binding pocket. We correlated the SARs at both the C4 and the Trp(8) binding pockets with calculations of the electrostatic potentials of the diverse C4 aromatic substituents using Spartan 3-21G(*) MO analysis. These calculations provide an approximate analysis of a molecule's ability to interact within a receptor binding site. Our binding studies show that benzene and indole rings, but not pyridinylmethyl nor pyrazin-2-ylmethyl rings, can bind the hydrophobic Trp(8) binding pocket of sst4. The Spartan 3-21G(*) MO analysis reveals significant negative electrostatic potential in the region of the pi-clouds for the benzene and indole rings but not for the pyridinylmethyl or pyrazin-2-ylmethyl congeners. Our data further demonstrate that the replacement of benzene or indole side chains by heterocyclic aromatic rings typified by pyridine and pyrazine not only enhances water solubility and hydrogen bonding capacity as expected, but can also profoundly diminish the ability of the pi-cloud of the aromatic substituent to interact with side chains of an aromatic binding pocket such as that for Trp(8) of SRIF-14. Conversely, these calculations accommodate the experimental findings that pyrazin-2-ylmethyl and pyridinylmethyl substituents at C4- of C1-indole-substituted glycosides afford higher affinities at sst4 than the C4-benzyl group of (+)-2. This result is consistent with the high electron density in the plane of the heterocycle depicted in Figure 6 which can accept hydrogen bonds from the C4 binding pocket of the receptor. Unexpectedly, we found that the 2-fluoropyridin-5-ylmethyl analogue (+)-14 more closely resembles the binding affinity of (+)-8 than that of (+)-2, thus suggesting that (+)-14 represents a rare example of a carbon linked fluorine atom acting as a hydrogen bond acceptor. We attribute this result to the ability of the proton to bind the nitrogen and fluorine atoms simultaneously in a bifurcated arrangement. At the NK1 receptor of substance P (SP), the free hydroxyl at C4 optimizes affinity.
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PMID:Effects of heterocyclic aromatic substituents on binding affinities at two distinct sites of somatostatin receptors. Correlation with the electrostatic potential of the substituents. 1272 49


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