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)

A 34-year-old man presented with classic glucagonoma syndrome manifested by weight loss, dermatitis, stomatitis, anemia, and mild diabetes mellitus. The diagnosis of glucagonoma was made by light and electron microscopic demonstration of a metastatic alpha cell carcinoma in a liver biopsy specimen. Plasma glucagon concentration was abnormally high. The patient also had symptoms and signs of involvement of the central nervous system. Radionuclide and CAT scans of the brain, negative CSF cytology and myelography excluded the possibility of metastases or other space-occupying lesions. Glucagon was demonstrated in the CSF. We postulate that the neurologic symptoms were due to direct or indirect effect of this hormone on the brain. Following therapy with streptozotocin and 5-fluorouracil, the patient had a subjective and objective clinical and hormonal remission of his disease including amelioration of his neurological impairment.
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PMID:Neurologic involvement in glucagonoma syndrome: response to combination chemotherapy with 5-fluorouracil and streptozotocin. 22 32

Recently, it was shown that lipoprotein lipase (LPL) was produced in neonatal but not in adult rat liver. In an attempt to further define the mechanism involved in liver LPL expression, we identified a neonatal mouse hepatoma cell line, BWTG3, capable of producing LPL. The regulation of LPL expression by various extracellular stimuli was investigated in this cell line. Progesterone caused a rise in LPL production by BWTG3 cells. Other hormones tested, such as insulin, glucagon, adrenalin, testosterone, and thyroid hormone, had no effect on LPL production. The effects of progesterone on LPL production showed slow kinetics reaching a maximum 24 h after addition. Cotransfection of a progesterone receptor expression vector with a 5'-LPL-CAT reporter construct resulted in an induction of CAT activity, suggesting that the increase in LPL accumulation after progesterone was linked to transcriptional induction of the LPL gene. Stimuli causing an elevation of protein kinase A activity in the cells also increased LPL production. Three agents capable of elevating intracellular cAMP levels, i.e., forskolin, dBcAMP, and choleratoxin, caused an elevation of LPL production. The increase in LPL activity caused by forskolin and choleratoxin was paralleled by an elevation of LPL mRNA levels, while dBcAMP only induced a small elevation of LPL mRNA levels. The increase in LPL production was shown to be linked to the stimulation of the PKA signal transduction pathway and was apparently transmitted via the transcription factor CREB. No effect of the stimulation of protein kinase C or calcium/calmodulin-dependent kinase on LPL production was detected.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Lipoprotein lipase expression in undifferentiated hepatoma cells is regulated by progesterone and protein kinase A. 132 33

The effects of glucagon, heparin, urokinase, thromboxane synthetase inhibitor (OKY-046), and the free radical scavengers, superoxide dismutase and catalase (SOD + CAT), on the viability of ischemic intestine were evaluated based on various parameters measured. The mucosal blood flow, the fluorescence pattern, and the histopathological findings in a rabbit model with 3.5 hr total vascular occlusion of a short small intestine indicated that glucagon improved the ischemic intestine. Glucagon increased, tremendously, the mucosal blood flow by 112% in the ischemic intestine compared with that of 25% in the nonischemic intestine. This indicated that vascular spasm, not reperfusion injury or thrombosis, played the initial role in the progression of transmural bowel necrosis. In addition, the outcome in the viability of the ischemic intestine was not detected by the fluorescence technique but was able to be detected through the mitochondrial morphology under the electron microscope.
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PMID:Does glucagon improve the viability of ischemic intestine? 226 88

Culturing sympathetic ganglion neurons in vitro may modify phenotypic expression of some neurotransmitters. For dorsal root ganglia (DRG), contradictory results have been reported; most studies have used immature material. We have therefore performed a detailed immunocytochemical analysis of the transmitter content of cultured adult rat DRG neurons. To demonstrate possible modifications of neurotransmitter phenotypes, we have compared the results obtained with the same techniques on neurons cultured for 3 days and on freshly dissociated DRG cells. Also, the transmitter profile of cultured neurons was compared with that known from in situ studies. Out of 22 antigens studied, 20 were detected in cultured DRG neurons. All of them were expressed in small and/or intermediate-sized cells. Large neurons only contained CGRP, VIP, NPY, beta-END, ENK, and GABA. The percentage of immunostained neurons varied for the various antisera: less than 10% of cultured neurons were positive for ENK, beta-LPH, beta-END, DYN, VASO, and OXY; 10-30% for SOM, CCK, CAT, and SP; and greater than 30% for NPY, CRF, GLU, NT, VIP, GABA, GRP, CGRP, 5-HT, and TRH. In the latter two groups of transmitters (except CGRP), the proportion of immunoreactive neurons was by far larger in cultured than in freshly dissociated DRG. The most pronounced (greater than 25%) increase in the proportion of positively stained neurons after culturing was observed for the GRP, CRF, TRH, and 5-HT antisera. Serotonin was the only transmitter identified in cultured but not in freshly dissociated cells. These data indicate, on one hand, that various antigens, for example, CAT, GABA, NT, TRH, NPY, beta-LPH, and beta-END, which up to now have not been described in DRG in situ, can be detected immunocytochemically a few hours after dissociation of adult rat DRG. On the other hand, several transmitters, for example, VIP, NPY, SP, GABA, GLU, NT, GRP, CRF, TRH, and 5-HT, are expressed in a significantly higher proportion of cells in cultured than in freshly dissociated preparations. This might reflect a change in the phenotypic expression of transmitters due to the new environment generated by the culture conditions, a hypothesis that can be tested by measuring specific mRNA levels. Moreover, considering the plasticity and multipotentiality of their transmitter phenotype, cultured adult DRG neurons might represent an interesting material for autografts into the injured central nervous system.
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PMID:Neurotransmitter phenotype plasticity in cultured dissociated adult rat dorsal root ganglia: an immunocytochemical study. 256 40

In primary cultures of adult rat hepatocytes, transcription of the albumin gene, measured as incorporation of [alpha-32P]UTP into mRNA in isolated nuclei, decreased dramatically during culture without addition of serum and hormone, becoming almost negligible 10 h after plating. Of the hormones tested, dexamethasone (0.1 microM) prevented this decrease and restored the transcription within 2 h to the same level as that before culture. The half-maximum dose of dexamethasone for induction of transcription of the albumin gene was about 30 nM. The in vitro finding that expression of the albumin gene is strictly regulated by glucocorticoid was confirmed by an in vivo experiment in adrenalectomized rats showing that the transcription decreased markedly 14 days after adrenalectomy, but was restored rapidly by administration of hydrocortisone. This finding was also supported by identification of a glucocorticoid regulatory sequence from -50 to -62 base pairs between the TATA box and CAT box upstream of the 5'-end of the albumin gene. Cycloheximide inhibited the induction of transcription of the albumin gene by dexamethasone, suggesting that a rapidly induced mediator protein, which is also regulated by glucocorticoid, is involved in the induction of albumin gene expression by glucocorticoid. The albumin gene was also regulated by various other hormones besides glucocorticoid. Glucagon markedly enhanced the transcription induced by dexamethasone, although glucagon alone had no effect. Conversely, epinephrine suppressed stimulation of expression of the albumin gene by dexamethasone. Insulin and triiodothyronine had no effect on transcription of the albumin gene. From these findings we conclude that expression of the albumin gene depends strictly on glucocorticoid, and this dependence is modulated by other hormones.
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PMID:Glucocorticoid-dependent expression of the albumin gene in adult rat hepatocytes. 378 47

Review of the 55 reported cases of glucagon-producing tumors reveals that a distinctive clinical syndrome consisting of diabetes, a peculiar dermatitis termed necrolytic migratory erythema, weight loss and an increased tendency for thrombosis is associated with these neoplasms. Normochromic normocytic anemia, hypocholesterolemia, hypoproteinemia and generalized hypoaminoacidemia are frequent laboratory findings. Definitive diagnosis of a glucagonoma requires elevation of the fasting serum glucagon level. Selective arteriography of the pancreas has been the best method for localizing these neoplasms preoperatively, but the noninvasive technics of ultrasound and CAT scanning can also be helpful. When the tumor is benign, complete surgical excision can completely reverse all the clinical manifestations of the glucagonoma syndrome and result in lasting cure. Since, however, approximately three-fourths of these tumors are malignant, palliative therapy is frequently required. Cytoreductive surgery can decrease the amount of hormone-producing tissue and can improve or even temporarily reverse the clinical symptomatology. For disseminated disease, chemotherapy is necessary. The best results have been obtained with DTIC although streptozotocin has also been used.
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PMID:Clinical aspects of glucagon-producing islet cell tumors. 627 69

We analyzed the ability of cyclic AMP-response element binding proteins (CREBs) to interact with the CRE sequences derived from different genes and examined the role of sequences flanking the core CRE element in rendering cAMP-responsiveness to the enhancer. We were able to detect reproducibly, sing the Southwestern blotting technique, five major CREB factors of molecular weights 56, 47, 40, and 36-34 kDa which were present in various rat tissues and cultured cells. The 34-40 kDa proteins (CREB-327/341) were able to bind to the CRE of cAMP-inducible genes (somatostatin, c-fos, E2A), but not to genes whose expression is not controlled by cAMP (glucagon, parathyroid hormone). The novel 47 kDa CREB had a high specificity for the core octameric CRE sequence and it bound equally well to the consensus CRE of cAMP-inducible and noninducible genes. On the other hand, the 47 kDa CREB did not bind at all to the phorbol ester response element (TRE), whereas the 56 kDa protein, reminiscent of the CRE-BP1 protein, could bind to both elements. A computer aided sequence analysis of cAMP-inducible gene promoters revealed the presence of an additional conserved element starting 4-6 nucleotides 3' to the octomer with the consensus C/GAGA/C. We have shown this element to be essential for maximal cAMP-responsiveness of the enhancer in transient expression assays of CRE-CAT plasmid constructs indicating that the functional interaction of CREB proteins with the cAMP-inducible enhancer involves an additional 8-10 base pairs immediately downstream from the CRE core element.
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PMID:Evidence that an additional conserved element with the consensus C/GAGA/C is essential for maximal responsiveness of the cyclic AMP enhancer. 790 79

Ras, a GTP-binding protein, converts membrane tyrosine kinase signalling to changes in gene expression patterns. Utilising a rat glucagon promoter-CAT construct (p[-1.1]GLU-CAT) we demonstrate in transient transfection experiments that the oncogenic Ras inhibits cAMP-dependent activation of p[-1.1]GLU-CAT in both glucagonoma InR1-G9 and insulinoma beta-TC1 cells. Conversely, the expression of a dominant negative mutant of Ras enhances the cAMP-induced activation of p[-1.1]GLU-CAT transcription in these cells. Our data suggests a functional interference of Ras with the cAMP-dependent transcription of the glucagon gene.
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PMID:Ras antagonizes cAMP stimulated glucagon gene transcription in pancreatic islet cell lines. 795 74

Glucagon was found to increase the mRNA level of the uricase-encoding gene (UOX), but not that of genes encoding other peroxisomal enzymes, such as catalase, acyl-CoA oxidase and enoyl-CoA hydratase/3-hydroxyacyl-CoA dehydrogenase. The possible involvement of cAMP in the glucagon-induced transcription of rat UOX was studied by measuring the enhancer activity of the isolated 5'-untranslated region of the gene. An 84-bp sequence spanning positions -169 to -86 was found to be essential for cAMP-mediated expression of rat UOX, on deletional analysis of the upstream 1.4-kb portion by means of a transient transfection assay (CAT assay). The 30-mer oligodeoxyribonucleotide (positions from -169 to -140) was found to form a DNA-protein complex by an electrophoretic mobility shift assay. The core sequence for the DNA-protein complex formation, 5'-CAAAAATGTC-3', was found to be located in positions from -164 to -155. In addition, the binding assays suggested that the DNA-binding protein(s) was different from cAMP-response element binding protein (CREB). Thus, this report shows that a novel cis-acting element of rat UOX and the binding protein(s) possibly play an essential role in the glucagon-induced transcription via cAMP.
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PMID:Transcription of the rat liver uricase-encoding gene is regulated via a cis-acting element responsive to cAMP. 856 90

Hepatocytes around the afferent (periportal) vessels differ from those around the efferent (perivenous) vessels in their contents of key enzymes, and therefore have different metabolic capacities. Thus, the model of "metabolic zonation" proposes that the periportal cells produce glucose via glycogenolysis and gluconeogenesis and that the perivenous cells utilize glucose via glycogen synthesis and glycolysis. The periportal and perivenous cells receive different signal patterns, because substrates including oxygen and hormones are degraded and products and mediators are formed during passage of blood through the liver. The different signal patterns should be important for both short-term regulation of metabolic rates and for long-term induction and maintenance of the enzyme equipments by control of gene expression. From the periportal to the perivenous zone, the concentration of the signal oxygen falls corresponding to a drop from about 13 (arterial) to 9 (mixed periportal) and then to 4 (hepatovenous) volume% gas atmosphere. For short-term regulation of metabolism, in perivenous-like cells net glucose production measured over a period of two hours was observed below 2%, net glycogen synthesis above 4%, and net lactate utilization above 6% oxygen. In periportal-like cells net glucose formation and net lactate utilization increased sharply from anoxia to 6% oxygen and then only moderately. For long-term regulation of gene expression, the glucagon (cAMP)-dependent activation of the PCK gene was modulated by oxygen. The transcriptional rate, the abundance of mRNA and the enzyme activity were increased to higher levels under arterial rather than under venous oxygen. Conversely, the insulin-dependent activation of the glucokinase gene was negatively modulated by oxygen. A heme protein appeared to be involved in oxygen sensing, since CO mimicked the effects of oxygen on the PCK gene. Hydrogen peroxide was produced by hepatocytes as a function of oxygen tension; exogenously added, it mimicked the effects of oxygen on PCK gene induction. Therefore, the heme protein containing an oxygen sensor could be a peroxide producing oxidase. It is not known at present whether the same oxygen sensor is also involved in the short-term regulation by oxygen of hepatic carbohydrate metabolism. Transfection of PCK promoter-CAT gene constructs into primary hepatocytes showed that oxygen modulated PCK gene activation in the region of -277/+73. This modulation was not mediated by isolated cAMP responsive elements.
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PMID:Role of oxygen in the zonation of carbohydrate metabolism and gene expression in liver. 902 13


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