UNIPROT:P01275 - FACTA Search

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

Investigations were made on the effects of catecholamine (Cat) infusions with and without ammonia (NH3) on plasma and brain amino acids (AA) and brain neurotransmitters in dogs. Groups of four dogs were infused for 5 h with epinephrine (E), epinephrine + norepinephrine (E + NE), epinephrine + norepinephrine with NH3 during h 4 and 5 (E + NE + NH3), epinephrine + norepinephrine + tryptophan with NH3 during h 4 and 5 (T + E + NE + NH3), or saline (C). Cat decreased (P less than 0.05) plasma Gly, Thr, Lys, Pro, Val, Ser, Arg, Leu, Trp, Phe, Asn, Tyr, Met, Ile, Cit, and Asp. The decreases at h 3 for all were to a mean of 45% of 0 h and were associated with no changes in plasma insulin or glucagon. Cat increased plasma Tau and Orn. Of the most abundant brain AA (82% of total), E + NE + NH3 had no effect (GABA, Asp, Gly, Ala, p-ethanolamine) or increased (Glu, Gln, Tau) brain levels. These AA were unchanged by Cat alone. Of the remaining brain AA, most were decreased by Cat (7 of 16, P less than 0.05) and E + NE + NH3 increased brain Trp but had no effect on brain serotonin, 5-hydroxyindoleacetic acid, or NE. Cat changed plasma AA in a way similar to changes produced by NH3 infusion and seen with hepatic insufficiency due to portacaval shunts and nitrosamine-induced pathology. Cat reduced brain AA levels, and this was partially restored by NH3.
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PMID:Effects of catecholamines and ammonia on plasma and brain amino acids in dogs. 646 11

We investigated the effects of intrahypothalamic or hippocampal injection of GABA receptor agonists on hyperglycemia induced by hippocampal neostigmine. Prior to the injection of neostigmine (50 nmol) into the hippocampus (HPC), muscimol (0.01-1 nmol) or baclofen (1 nmol) was injected into the bilateral ventromedial hypothalamus (VMH). Muscimol suppressed the hyperglycemia in a dose-dependent manner, but baclofen affected it only minimally. In contrast, neither hippocampal muscimol (1 or 2.5 nmol) nor baclofen (1 nmol) suppressed the hippocampal neostigmine-dependent hyperglycemia. Intrahypothalamic muscimol (1 nmol) also decreased the changes in hepatic venous plasma glucagon and epinephrine significantly. These results indicate that intrahypothalamic muscimol suppresses hyperglycemia caused by cholinergic neurons originating from the HPC, indicating existence of the location specificity.
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PMID:Intrahypothalamic, but not hippocampal, administration of muscimol suppresses hyperglycemia induced by hippocampal neostigmine in anesthetized rats. 825 51

The GABA synthesizing enzyme GAD is a prominent islet cell autoantigen in type I diabetes. The two forms of GAD (GAD64 and GAD67) are encoded by different genes in both rats and humans. By in situ hybridization analysis of rat and human pancreases, expression of both genes was detected in rat islets, whereas only GAD64 mRNA was detected in human islets. Immunocytochemical analysis of rat and human pancreatic sections or isolated islets with antibodies to GAD64 and GAD67 in combination with antibodies to insulin, glucagon, or SRIF confirmed that a GAD64 and GAD67 expression were beta-cell specific in rat islets. In contrast, only GAD64 was detected in human islets and was, in addition to beta-cells, also surprisingly localized to some alpha-cells, delta-cells, and PP-cells. In long-term (4 wk) monolayer cultures of newborn rat islet cells, GAD64 expression remained beta-cell specific as observed in vivo, whereas GAD67 was localized not only to the beta-cells but also in the alpha-cells and delta-cells. A small but distinct fraction of GAD positive cells in these monolayer cultures did not accumulate GABA immunoreactivity, which may indicate cellular heterogeneity with respect to GABA catabolism or GAD enzyme activity. In a rat insulinoma cell line (NHI-6F) producing both glucagon and insulin depending on the culture conditions, GAD64 expression was detected only in cultures in which the insulin producing phenotype dominated. In conclusion, these data demonstrate that the two GAD isoforms are differentially expressed in rat and human islets but also that the expression differs according to culture conditions. These findings emphasize the need to consider both the species and culture conditions of islets.
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PMID:Differential expression of glutamic acid decarboxylase in rat and human islets. 843 19

The central action of the peptide of intestinal tract, glucagon, was studied in Albino Swiss mice (20-25 g) and Wistar rats (200-220 g). Glucagon was injected intracerebroventricularly (icv) at the dose of 0.25, 0.5 and 1 microgram in 1 microliter of distilled water per mouse or 5 micrograms in 5 microliters per rat. It was found that glucagon administered icv increased glucose content in the peripheral blood serum. Behavioral studies have shown that glucagon diminished spontaneous locomotor activity in rats and mice, impaired exploratory activity and reduced amphetamine-induced hyperactivity. The results were not dependent on hyperglycaemia because the administration of 20% glucose solution po did not cause above effects. In addition, glucagon potentiated cataleptogenic effects of haloperidol. Icv injection of glucagon did not change the pain sensitivity or seizure susceptibility. The substance did not show the anxiolytic properties and did not affect the duration of hexobarbital-induced sleep. In biochemical studies it was found that glucagon injected icv induced the decrease in GABA content while the DA content was increased. The utilization of DA was not changed. The obtained results indicated, that glucagon injected icv exerted the central action, which was manifested by the central regulation of glucose level in the periphery. Moreover, glucagon inhibited the locomotor and exploratory activity as well as the amphetamine-induced hyperactivity and enhanced haloperidol-induced catalepsy. These effect could be connected with the inhibition of the central dopaminergic structures by glucagon.
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PMID:Central action of glucagon. 979 64

The in vivo effects of three new analogs of somatostatin (ASS-51, ASS-52 and ASS-53 analogs) on GH, insulin and glucagon were studied in WKY rats. The solid phase method was used for the synthesis of ASS. Octreotide and ASS were given iv. in a dose of 0.05 &mgr;g/kg per animal in a time-dependent manner. ASS-52 and ASS-53 were longer acting and more potent somatostatin analogs when compared to octreotide in producing the inhibition of GH. ASS-51 was found to be the most potent and selective inhibitor of insulin and glucagon release. Our results show that the increased inhibitory effect and the higher selectivity of the new somatostatin analogs may result from the differences in their chemical structure. ASS-52 is most active in inhibiting GH release. The mechanism by which ASS-52 inhibits preferentially GH release may involve the opioid system and the activation of GABA-ergic receptors. In studies in vitro ASS-52 inhibited GH release from pituitary cells" culture.
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PMID:New analogs of somatostatin: inhibiting effectively GH, glucagon and insulin levels. 1146 19

Previous reports have dealt with the hypoglycemic properties of taurine and its effects on insulin secretion by adult and fetal isolated islets. We have studied the presence and cellular distribution of taurine in rat islets, the conditions to evoke its release, and its possible modulatory action on insulin secretion. We localized taurine by techniques of double immunolabeling in most glucagon-positive cells and in some somatostatin-positive cells, whereas insulin-positive cells were not labeled with the taurine antibody. Although high-glucose stimulation did not evoke any taurine release, a hyposmotic solution (17% osmolarity reduction) induced a specific phasic release of taurine and GABA (34 and 52% increase on their basal release rate). On the other hand, taurine (10 mmol/l) application slightly reduced the second phase of insulin secretion induced by glucose stimulation. In conclusion, taurine is highly concentrated in glucagon-containing cells of the islet periphery. It is not liberated by glucose stimulation but is strongly released under hyposmotic conditions. All of these data suggest that taurine plays an osmoregulatory role in alpha-cells.
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PMID:An osmotic-sensitive taurine pool is localized in rat pancreatic islet cells containing glucagon and somatostatin. 1170 44

High concentrations of glucagon-like peptide-1 (7-36) amide (GLP-1) and its specific receptor (GLP-1R) have been found in the rat hypothalamus. In this study the actions of GLP-1 and its related peptides, exendin-4 (GLP-1R agonist), exendin (9-39) (GLP-1R antagonist) and GLP-1 (9-36) amide (the major GLP-1 metabolite) on levels of serotonin (5-HT), 5-hydroxyindolacetic acid (5-HIAA) and amino acids (Glu, Asp, Gln, Gly, Tyr, Trp, GABA) in the hypothalamus were investigated. Intracerebroventricular (ICV) injection of GLP-1 (4 nmol) produced a significant reduction in levels of 5-HT (54%) and all measured amino acids (34 to 56%) compared with saline injected controls, whereas exendin (9-39) (4 nmol) was ineffective. ICV injection of exendin-4 produced a significant reduction in the levels of 5-HT, 5-HIAA, Trp, Glu, and Tyr. ICV injection of GLP-1(9-36) amide showed a statistically significant increase in the level of 5-HT, 5-HIAA and all the amino acids tested in this study. Prior administration of exendin (9-39) or GLP-1 (9-36) amide blocked the effects of GLP-1 on the levels of 5-HT and the amino acids. These data are consistent with exendin-4 being a GLP-1R agonist and exendin (9-39) being a specific GLP-1R antagonist. GLP-1 (9-36) amide, a primary metabolite of GLP-1, appears to act as an endogenous antagonist at the GLP-1R.
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PMID:Effects of intracerebroventricular injection of glucagon like peptide-1 and its related peptides on serotonin metabolism and on levels of amino acids in the rat hypothalamus. 1185 32

Somatostatin-14 (somatostatin) and its clinically available analogues octreotide, lanreotide, and vapreotide are potent inhibitors of growth hormone, insulin, and glucagon release. Recently, a novel backbone cyclic somatostatin analogue c(GABA-Phe-Trp-(D)Trp-Lys-Thr-Phe-GlyC3-NH(2)) (analogue 1, PTR 3173) that possesses in vivo endocrine selectivity was described. This long-acting octapeptide exhibits high affinity to human recombinant somatostatin receptors (hsst) hsst2, hsst4, and hsst5. Its novel binding profile resulted in potent in vivo inhibition of growth hormone but not of insulin release. We report the synthesis, bioactivity, and structure-activity relationship studies of compounds related to 1. In these analogues, the lactam bridge of 1 was replaced by a backbone disulfide bridge. We present a novel approach for conformational constraint of peptides by utilizing sulfur-containing building units for on-resin backbone cyclization. These disulfide backbone cyclic analogues of 1 showed significant metabolic stability as tested in various enzyme mixtures. Receptor binding assays revealed different receptor selectivity profiles for these analogues in comparison to their prototype. It was found that analogues of 1, bearing a disulfide bridge, had increased selectivity to hsst2 and hsst5; however, they exhibited weaker affinity to hsst4 as compared to 1. These studies imply that ring chemistry, ring size, and ring position of the peptide template may affect the receptor binding selectivity.
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PMID:Human somatostatin receptor specificity of backbone-cyclic analogues containing novel sulfur building units. 1193 20

The role of secretin as a classical hormone in the gastrointestinal system is well-established. The recent debate on the use of secretin as a potential therapeutic treatment for autistic patients urges a better understanding of the neuroactive functions of secretin. Indeed, there is an increasing body of evidence pointing to the direction that, in addition to other peptides in the secretin/glucagon superfamily, secretin is also a neuropeptide. The purpose of this review is to discuss the recent data for supporting the neurocrine roles of secretin in rodents. By in situ hybridization and immunostaining, secretin was found to be expressed in distinct neuronal populations within the cerebellum and cerebral cortex, whereas the receptor transcript was found throughout the brain. In the rat cerebellum, secretin functions as a retrograde messenger to facilitate GABA transmission, indicating that it can modulate motor and other functions. In summary, the recent data support strongly the neuropeptide role of secretin, although the secretin-autism link remains to be clarified in the future.
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PMID:Secretin as a neuropeptide. 1239 59

L-Glutamate is believed to function as an intercellular transmitter in the islets of Langerhans. However, critical issues, i.e. where, when and how L-glutamate appears, and what happens upon stimulation of glutamate receptors in the islets, remain unresolved. Vesicular glutamate transporter 2 (VGLUT2), an isoform of the vesicular glutamate transporter essential for neuronal storage of L-glutamate, is expressed in alpha cells (Hayashi, M., Otsuka, M., Morimoto, R., Hirota, S., Yatsushiro, S., Takeda, J., Yamamoto, A., and Moriyama, Y. (2001) J. Biol. Chem. 276, 43400-43406). Here we show that VGLUT2 is specifically localized in glucagon-containing secretory granules but not in synaptic-like microvesicles in alpha TC6 cells, clonal alpha cells, and islet alpha cells. VGLUT1, another VGLUT isoform, is also expressed and localized in secretory granules in alpha cells. Low glucose conditions triggered co-secretion of stoichiometric amounts of L-glutamate and glucagon from alpha TC6 cells and isolated islets, which is dependent on temperature and Ca(2+) and inhibited by phentolamine. Similar co-secretion of L-glutamate and glucagon from islets was observed upon stimulation of beta-adrenergic receptors with isoproterenol. Under low glucose conditions, stimulation of glutamate receptors facilitates secretion of gamma-aminobutyric acid from MIN6 m9, clonal beta cells, and isolated islets. These results indicate that co-secretion of L-glutamate and glucagon from alpha cells under low glucose conditions triggers GABA secretion from beta cells and defines the mode of action of L-glutamate as a regulatory molecule for the endocrine function. To our knowledge, this is the first example of secretory granule-mediated glutamatergic signal transmission.
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PMID:Secretory granule-mediated co-secretion of L-glutamate and glucagon triggers glutamatergic signal transmission in islets of Langerhans. 1241 5

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