Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.7.11.11 (AMPK)
 12,425 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The acute effects of insulin, adenosine, and isoproterenol on the activity, subcellular distribution, and phosphorylation state of the GLUT4 glucose transporter isoform were investigated in rat adipocytes under conditions carefully controlled to monitor changes in cAMP-dependent protein kinase (A-kinase) activity. In contrast to GLUT1, which has not been shown to be phosphorylated even when cells are exposed to any of the above agents, GLUT4 was partially phosphorylated (0.1-0.2 mol/mol) when the activity of the A-kinase was suppressed, and remained unchanged in response to insulin. Isoproterenol elicited a 64% inhibition of insulin-stimulated glucose transport activity in the absence, but not the presence, of adenosine receptor agonists. However, in either the presence or the absence of agonists, A-kinase was activated as assessed by examining the phosphorylation of the major adipocyte A-kinase substrate, perilipin. Similarly, under either condition, phosphorylation of GLUT4 was enhanced 1.4-fold in the intracellular membranes, but no significant change was observed in the plasma membrane. In the absence of adenosine receptor agonists, isoproterenol exerted a small (14%) but significant inhibition of the insulin-induced translocation of GLUT4 but had no effect on the translocation of GLUT1. Thus, changes in the phosphorylation state and/or subcellular distribution of GLUT4 cannot account for the inhibition of insulin-stimulated glucose activity induced by isoproterenol.
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PMID:Phosphorylation state of the GLUT4 isoform of the glucose transporter in subfractions of the rat adipose cell: effects of insulin, adenosine, and isoproterenol. 176 64

Phosphorylation of the insulin-regulatable glucose transporter (IRGT) is increased by incubating rat adipocytes with isoproterenol or by incubating microsomal membranes with cAMP-dependent protein kinase. To attempt to locate the sites of phosphorylation, the IRGT (apparent Mr = 46,000) was immunoprecipitated from 32P-labeled adipocytes and cleaved with CNBr or trypsin. Essentially all of the 32P could be recovered in a single CNBr fragment, denoted CB-T (Mr = 8,000), which bound a polyclonal antibody (R820) against a peptide having the sequence of the last 12 amino acids in the COOH terminus of the IRGT. 32P-Labeling of the IRGT was also confined to CB-T when membranes were incubated with [gamma-32P]ATP and cAMP-dependent protein kinase. Isoproterenol increased phosphorylation of CB-T, but insulin was without effect. To resolve phosphorylation sites further, IRGT from 32P-labeled cells was subjected to exhaustive proteolysis with trypsin. Samples were applied to a C-18 column, and 32P-labeled fragments were resolved into three peak fractions by elution with an increasing gradient of acetonitrile. [32P]Phosphoserine was the only phosphoamino acid detected in any of the peaks. Peak III contained approximately 80% of the 32P and was increased by isoproterenol. Almost all of the 32P introduced by cAMP-dependent protein kinase in vitro eluted in Peak III. In all cases, the 32P-labeled species in Peak III were quantitatively immunoprecipitated by R820. Digesting the peptide(s) in Peak III with V8 protease generated a single peak of 32P which eluted at lower acetonitrile than Peak III and contained 32P-labeled species that did not interact with R820. Automated Edman degradation indicated that the serine residue in Peak III phosphorylated by cAMP-dependent protein kinase was the 3rd or 4th residue from the NH2 terminus of the peptide. These findings indicate that phosphorylation of the IRGT is restricted to the presumed intracellular domain at the COOH terminus and that Ser488 is a major site phosphorylated both by cAMP-dependent protein kinase in vitro and in response to isoproterenol in vivo.
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PMID:Phosphorylation of the glucose transporter in rat adipocytes. Identification of the intracellular domain at the carboxyl terminus as a target for phosphorylation in intact-cells and in vitro. 240 83

We have examined the acute effects of insulin and isoproterenol on the phosphorylation state of the insulin-regulatable glucose transporter (IRGT) in rat adipocytes. The IRGT was immunoprecipitated from either detergent-solubilized whole-cell homogenates or subcellular fractions of 32P-labeled fat cells and subjected to sodium dodecyl sulfate/polyacrylamide gel electrophoresis. The 32P-labeled IRGT was detected by autoradiography as a species of apparent Mr 46,000. Insulin stimulated translocation of the IRGT from low-density microsomes to the plasma membrane but did not affect phosphorylation of the transporter in either fraction. Isoproterenol inhibited insulin-stimulated glucose transport by 40% but was without effect on the subcellular distribution of the transporter in either the presence or absence of insulin. Isoproterenol stimulated phosphorylation of the IRGT 2-fold. Incubating cells with dibutyryl-cAMP and 8-bromo-cAMP also stimulated phosphorylation 2-fold, and the transporter was phosphorylated in vitro when IRGT-enriched vesicles were incubated with cAMP-dependent protein kinase and [gamma-32P]ATP. These results suggest that isoproterenol stimulates phosphorylation of the IRGT via a cAMP-dependent pathway and that phosphorylation of the transporter may modulate its ability to transport glucose.
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PMID:Isoproterenol stimulates phosphorylation of the insulin-regulatable glucose transporter in rat adipocytes. 255 13

This paper examines the modulation of insulin-stimulated glucose transport activity in rat adipose cells by ligands for receptors (R) that mediate stimulation (Rs; lipolytic) or inhibition (Ri; antilipolytic) of adenylate cyclase. The changes in glucose transport activity and cAMP, as assessed by 3-O-methylglucose uptake and (-/+) cAMP-dependent protein kinase (A-kinase) activity ratios, respectively, were monitored under conditions that maintain steady-state A-kinase activity ratios (Honnor, R. C., Dhillon, G. S., and Londos, C. (1985) J. Biol. Chem. 260, 15122-15129). Removal of endogenous adenosine with adenosine deaminase decreased insulin-stimulated glucose transport activity by approximately 30%, which was prevented or restored with Ri agonists such as phenylisopropyladenosine, nicotinic acid, and prostaglandin E1. These changes in transport activity were not accompanied by changes in A-kinase activity ratios, indicating that Ri-mediated effects on transport are independent of cAMP changes. Addition of an Rs ligand, isoproterenol, in the presence of adenosine increased kinase activity but did not change glucose transport activity. Conversely, upon removal of adenosine, addition of Rs ligands such as isoproterenol, adrenocorticotropic hormone, or glucagon strongly inhibited transport (approximately 50%) and stimulated kinase activity. However, subsequent addition of phenylisopropyladenosine nearly restored transport activity without alteration of A-kinase activity. These data and additional kinetic experiments suggest that Rs-mediated glucose transport modulations are also independent of cAMP. The interchangeability of ligands for both Rs and Ri receptors in modulating transport activity suggests that these cAMP-independent effects are mediated by the stimulatory (Ns) and inhibitory (Ni) guanyl nucleotide-binding regulatory proteins of adenylate cyclase. All Rs-and Ri-induced changes in transport activity occurred without a change in glucose transporter distribution, as assessed by D-glucose-inhibitable cytochalasin B binding, suggesting that Rs and Ri ligands modulate the intrinsic activity of the glucose transporter present in the plasma membrane.
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PMID:Regulation of insulin-stimulated glucose transport in the isolated rat adipocyte. cAMP-independent effects of lipolytic and antilipolytic agents. 302 4

This study characterizes the actions of insulin and parathyroid hormone (PTH) on the glucose transport system in the rat osteogenic sarcoma cell line UMR 106-01, which expresses a number of features of the osteoblast phenotype. Using [1,2-3H]2-deoxyglucose (2-DOG) as a label, UMR 106-01 cells were shown to possess a glucose transport system which was enhanced by insulin. In contrast, PTH influenced glucose transport in a biphasic manner with a stimulatory effect at 1 h and a more potent inhibitory effect at 16 h on basal and insulin-stimulated 2-DOG transport. To explore the mechanism of PTH action, a direct agonist of cAMP-dependent protein kinase (PKA) was tested. 8-Bromo-cAMP had no acute stimulatory effect but inhibited basal and insulin-stimulated 2-DOG transport at 16 h. This result suggested that the prolonged, but not the acute, effect of PTH was mediated by the generation of cAMP. Further studies with the cell line UMR 4-7, a UMR 106-01 clone stably transfected with an inducible mutant inactive regulatory subunit of PKA, confirmed that the inhibitory but not the stimulatory effect of PTH was mediated by the PKA pathway. Northern blot data indicated that the prolonged inhibitory effects of PTH and 8-bromo-cAMP on glucose transport were likely to be mediated in part by reduction in the levels of GLUT1 (HepG2/brain glucose transporter) mRNA.
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PMID:Modulation of glucose transport by parathyroid hormone and insulin in UMR 106-01, a clonal rat osteogenic sarcoma cell line. 761 14

This study examined the changes in cellular glucose uptake, cAMP-dependent protein kinase (PKA), and progesterone production induced by 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD) in human luteinizing granulosa cells (LGCs) in culture. The role of Ah receptor on TCDD-mediated toxicity in human LGCs was investigated. Treatment of human LGCs with TCDD produced a time- and dose-dependent decrease in the cellular uptake of glucose. The Vmax and the K(m) of glucose transport were decreased by TCDD treatment. Furthermore, cytochalasin B, a specific inhibitor of facilitative glucose transporter proteins, totally abolished the portion of glucose transport activity that is sensitive to TCDD. Pretreatment of the cells with the Ah receptor blockers 4,7-phenanthroline and alpha-naphthoflavone antagonised the effect of TCDD on 3H-Me-glucose uptake. Structure-activity relationship studies with TCDD and three dioxin congeners revealed a rank order for their potency in the inhibition of glucose transport as follows: TCDD > 1,2,3,7,8-PCDD > 1,2,4,7,8-PCDD > 2,7-DCDD. Such a rank order is consistent with the previously determined biological activity of TCDD and the other dioxin congeners. Treatment of cells for 48 h with 10 nM TCDD substantially reduced PKA and progesterone production. The inhibitory effect of TCDD on progesterone production was more pronounced in the presence of insulin (10 micrograms/mL) and D-glucose (13.3 mM). However, cytochalasin B abolished the effect of TCDD on progesterone production. Forskolin (adenylate cyclase activator) abolished the effect of TCDD on glucose uptake and progesterone production but it did not affect the action of TCDD on PKA activity. A relationship between glucose transporting activity and progesterone production in human LGCs treated with TCDD is indicated by several lines of evidence: a) cytochalasin B downregulated glucose transporting activity and progesterone production, b) insulin plus D-glucose downregulated glucose uptake and amplified the negative effect of TCDD on progesterone production, and c) forskolin abolished the negative effect of TCDD on glucose transporting activity and on progesterone production. From the present data we conclude that glucose transporting activity can be used as a sensitive biomarker to detect the very early response to TCDD in human steroid-producing cells and that effect of TCDD on steroid production is mediated through the cAMP-dependent protein kinase.
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PMID:2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD) modulates function of human luteinizing granulosa cells via cAMP signaling and early reduction of glucose transporting activity. 873 55

Accumulation of intracellular lipid by pancreatic islet beta-cells has been proposed to inhibit normal glucose-regulated insulin secretion ('glucolipotoxicity'). In the present study, we determine whether over-expression in rat islets of the lipogenic transcription factor SREBP1c (sterol-regulatory-element-binding protein-1c) affects insulin release, and whether changes in islet lipid content may be reversed by activation of AMPK (AMP-activated protein kinase). Infection with an adenovirus encoding the constitutively active nuclear fragment of SREBP1c resulted in expression of the protein in approx. 20% of islet cell nuclei, with a preference for beta-cells at the islet periphery. Real-time PCR (TaqMan) analysis showed that SREBP1c up-regulated the expression of FAS (fatty acid synthase; 6-fold), acetyl-CoA carboxylase-1 (2-fold), as well as peroxisomal-proliferator-activated receptor-gamma (7-fold), uncoupling protein-2 (1.4-fold) and Bcl2 (B-cell lymphocytic-leukaemia proto-oncogene 2; 1.3-fold). By contrast, levels of pre-proinsulin, pancreatic duodenal homeobox-1, glucokinase and GLUT2 (glucose transporter isoform-2) mRNAs were unaltered. SREBP1c-transduced islets displayed a 3-fold increase in triacylglycerol content, decreased glucose oxidation and ATP levels, and a profound inhibition of glucose-, but not depolarisation-, induced insulin secretion. Culture of islets with the AMPK activator 5-amino-4-imidazolecarboxamide riboside decreased the expression of the endogenous SREBP1c and FAS genes, and reversed the effect of over-expressing active SREBP1c on FAS mRNA levels and cellular triacylglycerol content. We conclude that SREBP1c over-expression, even when confined to a subset of beta-cells, leads to defective insulin secretion from islets and may contribute to some forms of Type II diabetes.
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PMID:Over-expression of sterol-regulatory-element-binding protein-1c (SREBP1c) in rat pancreatic islets induces lipogenesis and decreases glucose-stimulated insulin release: modulation by 5-aminoimidazole-4-carboxamide ribonucleoside (AICAR). 1469 Apr 55

Glucose transport into muscle is important for the maintenance of normoglycemia. Thus, understanding mechanisms that regulate expression of GLUT4, the main glucose transporter in skeletal muscle, is important to identify targets for the treatment of diabetes. Exercise increases the expression of GLUT4 mRNA and protein, and we have been investigating the mechanisms involved. Transcription of the GLUT4 gene is transiently activated after an acute bout of exercise and GLUT4 protein can be increased as much as two- to threefold after a few days of repeated exercise bouts. Studies of the GLUT4 promoter have identified two sets of DNA sequences that are important for metabolic regulation and also for increased transcription of the gene in response to exercise. These DNA elements have been shown to bind the transcription factors myocyte enhancer factor 2 (MEF2) and GLUT4 enhancer factor (GEF). The mechanisms that activate these proteins remain one of the important areas of research in this field. Signals that link muscle contraction to the activation of transcription factors (MEF2, GEF) involved in increased expression of GLUT4 during exercise is another area needing further research. Two signals that show promise are changes in the energy charge (acting through AMP activated kinase [AMPK]) and changes in intracellular calcium (acting through calcineurin [a calcium-calmodulin activated phosphatase] and calcium-calmodulin activated kinase [CAMK]). There is good evidence that both increased AMPK activity and increased CAMK activity cause increased transcription of the GLUT4 gene. It remains to be demonstrated that exercise is acting through one or both of these mechanisms.
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PMID:Regulation of GLUT4 gene expression during exercise. 1523 26

EGCG [(-)epigallocatechin-3-gallate], a green tea-derived polyphenol, has been shown to suppress cancer cell proliferation, and interfere with the several signaling pathways and induce apoptosis. Practically, there is emerging evidence that EGCG has a potential to increase the efficacy of chemotherapy in patients. We hypothesized that EGCG may exert cell cytotoxicity through modulating AMPK (AMP-activated protein kinase) followed by the decrease in COX-2 expression. EGCG treatment to colon cancer cells resulted in a strong activation of AMPK and an inhibition of COX-2 expression. The decreased COX-2 expression as well as prostaglandin E(2) secretion by EGCG was completely abolished by inhibiting AMPK by an AMPK inhibitor, Compound C. Also, the activation of AMPK was accompanied with the reduction of VEGF (vascular endothelial growth factor) and glucose transporter, Glut-1 in EGCG-treated cancer cells. These findings support the regulatory role of AMPK in COX-2 expression in EGCG-treated cancer cells. Furthermore, we have found that reactive oxygen species (ROS) is an upstream signal of AMPK, and the combined treatment of EGCG and chemotherapeutic agents, 5-FU or Etoposide, exert a novel therapeutic effect on chemo-resistant colon cancer cells. AMPK, a molecule of newly defined cancer target, was shown to control COX-2 in EGCG-treated colon cancer cells.
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PMID:Apoptotic effect of EGCG in HT-29 colon cancer cells via AMPK signal pathway. 1679 20

It is well known that exercise can have beneficial effects on insulin resistance by activation of glucose transporter. Following up our previous report that caveolin-1 plays an important role in glucose uptake in L6 skeletal muscle cells, we examined whether exercise alters the expression of caveolin-1, and whether exercise-caused changes are muscle fiber and exercise type specific. Fifty week-old Sprague Dawley (SD) rats were trained to climb a ladder and treadmill for 8 weeks and their soleus muscles (SOL) and extensor digitorum longus muscles (EDL) were removed after the last bout of exercise and compared with those from non-exercised animals. We found that the expression of insulin related proteins and caveolins did not change in SOL muscles after exercise. However, in EDL muscles, the expression of insulin receptor beta (IR beta) and glucose transporter-4 (GLUT-4) as well as phosphorylation of AKT and AMPK increased with resistance exercise but not with aerobic exercise. Also, caveolin-1 and caveolin-3 increased along with insulin related proteins only in EDL muscles by resistance exercise. These results suggest that upregulation of caveolin-1 in the skeletal muscle is fiber specific and exercise type specific, implicating the requirement of the specific mode of exercise to improve insulin sensitivity.
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PMID:Exercise type and muscle fiber specific induction of caveolin-1 expression for insulin sensitivity of skeletal muscle. 1760 94


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