EC:2.7.11.31 - FACTA Search

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Query: EC:2.7.11.31 (AMP-activated protein kinase)
13,065 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Glucose, that Claude Bernard has demonstrated in 1850 to be synthesized and secreted by the liver, is an important regulator of gene transcription in all types of organisms. In vertebrates, it especially regulates transcription of metabolic genes in the liver and fat tissue, activating genes encoding enzymes and regulators of the glycolytic and lipogenic pathways. Working with the L-type pyruvate kinase gene we have found that in hepatocytes glucose-dependent gene regulation requires: Presence of the GLUT2 glucose transporter, necessary to allow for an effective depletion in glucose 6-phosphate (G-6P) under gluconeogenic conditions. Phosphorylation of glucose to G-6P assured either by insulin-dependent glucokinase or by another hexokinase isoform. Most likely, entry of G-6P in the pentose phosphate pathway. Modulation of a kinase/phosphatase cascade, in particular inhibition of the 5'AMP-activated protein kinase. Signalling through a glucose response complex assembled onto a glucose-response element (GIRE) located in regulatory regions of glucose-responsive genes. The activators USF belong to the complex, and are required for a normal gene activation by glucose, as evidenced from the phenotype of knock-out mice deficient in USF. The study of USF-defective knock-out mice suggest that USF could be involved in nutritional activation of a whole class of genes regulated by glucose, and not by insulin itself. In particular, lipogenic genes and the ob gene, encoding the leptin satiety hormone, are abnormally responsive to diet in USF-/- mice. The transactivation potential of USF would be modulated by a glucose sensor system implying the COUP-TFII transcription inhibitor. The main role of insulin in the glucose response of genes like the L-PK gene is to induce the glucokinase gene. Glucagon, through cyclic AMP, inhibits L-PK gene transcription mainly through activation of PKA. The PKA catalytic subunit could act by phosphorylating member(s) of the glucose-response complex, or of contiguous transcription factor, e.g. HNF4. In conclusion, through a pluridisciplinary approach ranging from Claude Bernard-derived biology to modern molecular biology, important progress have been made during the last years on the mechanisms of the regulation of gene transcription by glucose in vertebrates.
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PMID:[From the glycogenic function of the liver to gene regulation by glucose]. 987 95

Allosteric activation of 5(')-AMP-activated protein kinase (AMPK) is currently of interest as an approach for the treatment of metabolic disorders because AMPK plays multiple roles in glucose and lipid metabolism. The availability of ultrafast, ultrasensitive, and robust assays suited to high-throughput screening (HTS) is key to obtaining small-molecule AMPK activators. In the absence of high-affinity and selective antiphospho Ser/Thr antibodies for AMPK substrates, we have developed two homogeneous AMPK assays with the commercially available antibody Anti-pS(133)-CREB and an engineered peptide ACC-CREBp. Anti-pS(133)-CREB antibody was raised against the phospho-CREB peptide derived from cAMP response element binding protein (CREB). ACC-CREBp was a variant (Arg to Pro) of ACC-CREB, a hybrid peptide consisting of a 9-amino-acid peptide from rat acetyl-CoA carboxylase (ACC), CREB peptide, and the addition of two hydrophobic Leu residues. ACC-CREBp showed increased suitability as a substrate for AMPK, eliminated phosphorylation by PKA, and preserved antibody binding. The homogeneous time-resolved fluorescence and AlphaScreen AMPK assays were developed using both Anti-pS(133)-CREB antibody and ACC-CREBp that are either labeled with a fluorescent probe or linked to a photoactivated bead, respectively. Thus, ACC-CREBp phosphorylation can be measured as a signal change resulting from the formation of antibody-antigen complex. This approach of adapting known antibody and antigenic peptide pairs to monitor alternate Ser/Thr kinases may be of general use.
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PMID:Homogeneous assays for adenosine 5'-monophosphate-activated protein kinase. 1451 78

In this report, we analyse the effects of osmotic shock on signal transduction in CHO cells. We demonstrate that at least three different kinase cascades are switched on upon osmotic shock, namely PKA, AMPK, and MLTK. Whereas PKA from cells treated with forskolin activated stress kinase p38, PKA from cells treated with sorbitol did not activate p38, although the enzyme is activated in both cases as analysed in vitro using a specific peptide target. Further, osmolar shock activated AMPK but treatment of the cells with the AMPK activator 5-amino-4-imidazolecarboxamide (AICAr) did not result in p38 activation, strongly suggesting that AMPK is not involved in stress kinase activation. Transfection of CHO cells with dominant negative recombinants of MLTKalpha resulted in inhibition of sorbitol-mediated p38 activation, indicating that the mixed-lineage kinase is involved in the activation of p38 by sorbitol. Finally, in CHO cells overexpressing wild-type MLTKalpha, no activation of AMPK of PKA could be demonstrated, indicating that the activated kinase cascades are not involved in a cross-talk process.
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PMID:Multiple independent kinase cascades are targeted by hyperosmotic stress but only one activates stress kinase p38. 1469 38

The Snf1/AMP-activated protein kinase family has diverse roles in cellular responses to metabolic stress. In Saccharomyces cerevisiae, Snf1 protein kinase has three isoforms of the beta subunit that confer versatility on the kinase and that exhibit distinct patterns of subcellular localization. The Sip1 beta subunit resides in the cytosol in glucose-grown cells and relocalizes to the vacuolar membrane in response to carbon stress. We show that translation of Sip1 initiates at the second ATG of the open reading frame, yielding a potential site for N myristoylation, and that mutation of the critical glycine abolishes relocalization. We further show that the cyclic AMP-dependent protein kinase (protein kinase A [PKA]) pathway maintains the cytoplasmic localization of Sip1 in glucose-grown cells. The Snf1 catalytic subunit also exhibits aberrant localization to the vacuolar membrane in PKA-deficient cells, indicating that PKA regulates the localization of Snf1-Sip1 protein kinase. These findings establish a novel mechanism of regulation of Snf1 protein kinase by the PKA pathway.
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PMID:Cyclic AMP-dependent protein kinase regulates the subcellular localization of Snf1-Sip1 protein kinase. 1496 66

Intramyocellular triglyceride is an important energy store which is related to insulin resistance. Mobilization of fatty acids from this pool is probably regulated by hormone-sensitive lipase (HSL), which has recently been shown to exist in muscle and to be activated by epinephrine via PKA and by contractions via PKC and ERK. 5' AMP-activated protein kinase (AMPK) is an intracellular fuel gauge which regulates metabolism. In this study we incubated rat soleus muscle to investigate if AMPK influences HSL during 5min of repeated tetanic contractions. An eightfold increase in AMPK activity was accompanied by a 2.5-fold increase in phosphorylation of the AMPK-site Ser(565) in HSL (p<0.05). Inhibition of PKC by Calphostin C abolished the contraction-mediated HSL activation while HSL-Ser(565) phosphorylation was not reduced. The study indicates that during contractions AMPK phosphorylates HSL in Ser(565), but this phosphorylation is not directly responsible for the contraction-induced activation of HSL.
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PMID:Contractions induce phosphorylation of the AMPK site Ser565 in hormone-sensitive lipase in muscle. 1503 81

Glucose and long-chain fatty acids (LCFA) are two major substrates used by heart and skeletal muscle to support contractile activity. In quiescent cardiac myocytes a substantial portion of the glucose transporter GLUT4 and the putative LCFA transporter fatty acid translocase (FAT)/CD36 are stored in intracellular compartments. Induction of cellular contraction by electrical stimulation results in enhanced uptake of both glucose and LCFA through translocation of GLUT4 and FAT/CD36 respectively to the sarcolemma. The involvement of protein kinase A, AMP-activated protein kinase (AMPK), protein kinase C (PKC) isoforms and the extracellular signal-regulated kinases was evaluated in cardiac myocytes as candidate signalling enzymes involved in recruiting these transporters in response to contraction. The collected evidence excluded the involvement of PKA and implicated an important role for AMPK and for one (or more) PKC isoform(s) in contraction-induced translocation of both GLUT4 and FAT/CD36. The unravelling of further components along this contraction pathway can provide valuable information on the coordinated regulation of the uptake of glucose and of LCFA by an increase in mechanical activity of heart and skeletal muscle.
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PMID:Signalling components involved in contraction-inducible substrate uptake into cardiac myocytes. 1529 39

Hormone-sensitive lipase (HSL) catalyses the hydrolysis of myocellular triacylglycerol (MCTG), which is a potential energy source during exercise. Therefore, it is important to elucidate the regulation of HSL activity in human skeletal muscle during exercise. The main purpose of the present study was to investigate the role of 5'AMP-activated protein kinase (AMPK) in the regulation of muscle HSL activity and Ser565 phosphorylation (the presumed AMPK target site) in healthy, moderately trained men during 60 min bicycling (65%). Alpha2AMPK activity during exercise was manipulated by studying subjects with either low (LG) or high (HG) muscle glycogen content. HSL activity was distinguished from the activity of other neutral lipases by immunoinhibition of HSL using an anti-HSL antibody. During exercise a 62% higher (P < 0.01) alpha2AMPK activity in LG than in HG was paralleled by a similar difference (61%, P < 0.01) in HSL Ser565 phosphorylation but without any difference between trials in HSL activity or MCTG hydrolysis. HSL activity was increased (117%, P < 0.05) at 30 min of exercise but not at 60 min of exercise. In both trials, HSL phosphorylation on Ser563 (a presumed PKA target site) was not increased by exercise despite a fourfold increase (P < 0.001) in plasma adrenaline. ERK1/2 phosphorylation was increased by exercise in both trials (P < 0.001) and was higher in LG than in HG both at rest and during exercise (P = 0.06). In conclusion, the present study suggests that AMPK phosphorylates HSL on Ser565 in human skeletal muscle during exercise with reduced muscle glycogen. Apparently, HSL Ser565 phosphorylation by AMPK during exercise had no effect on HSL activity. Alternatively, other factors including ERK may have counterbalanced any effect of AMPK on HSL activity.
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PMID:Regulation of hormone-sensitive lipase activity and Ser563 and Ser565 phosphorylation in human skeletal muscle during exercise. 1530 78

In addition to their ligand-mediated activation, nuclear receptor activity is finely tuned by their phosphorylation status. PPARs are phosphorylated by several kinases (PKA, PKC, MAPKs, and AMPK), which affect their activity in a ligand-dependent or -independent manner according to the isoform and cellular context. Molecular consequences are multiple, including changes in ligand affinity, DNA binding, recruitment of transcriptional cofactors, proteasome degradation... Finally, the physiological relevance of PPAR phosphorylation is discussed.
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PMID:Phosphorylation of PPARs: from molecular characterization to physiological relevance. 1573 34

Hormone-sensitive lipase (HSL) is important for the degradation of triacylglycerol in adipose and muscle tissue, but the tissue-specific regulation of this enzyme is not fully understood. We investigated the effects of adrenergic stimulation and AMPK activation in vitro and in circumstances where AMPK activity and catecholamines are physiologically elevated in humans in vivo (during physical exercise) on HSL activity and phosphorylation at Ser(563) and Ser(660), the PKA regulatory sites, and Ser(565), the AMPK regulatory site. In human experiments, skeletal muscle, subcutaneous adipose and venous blood samples were obtained before, at 15 and 90 min during, and 120 min after exercise. Skeletal muscle HSL activity was increased by approximately 80% at 15 min compared with rest and returned to resting rates at the cessation of and 120 min after exercise. Consistent with changes in plasma epinephrine, skeletal muscle HSL Ser(563) and Ser(660) phosphorylation were increased by 27% at 15 min (P < 0.05), remained elevated at 90 min, and returned to preexercise values postexercise. Skeletal muscle HSL Ser(565) phosphorylation and AMPK signaling were increased at 90 min during, and after, exercise. Phosphorylation of adipose tissue HSL paralleled changes in skeletal muscle in vivo, except HSL Ser(660) was elevated 80% in adipose compared with 35% in skeletal muscle during exercise. Studies in L6 myotubes and 3T3-L1 adipocytes revealed important tissue differences in the regulation of HSL. AMPK inhibited epinephrine-induced HSL activity in L6 myotubes and was associated with reduced HSL Ser(660) but not Ser(563) phosphorylation. HSL activity was reduced in L6 myotubes expressing constitutively active AMPK, confirming the inhibitory effects of AMPK on HSL activity. Conversely, in 3T3-L1 adipocytes, AMPK activation after epinephrine stimulation did not prevent HSL activity or glycerol release, which coincided with maintenance of HSL Ser(660) phosphorylation. Taken together, these data indicate that HSL activity is maintained in the face of AMPK activation as a result of elevated HSL Ser(660) phosphorylation in adipose tissue but not skeletal muscle.
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PMID:Regulation of HSL serine phosphorylation in skeletal muscle and adipose tissue. 1618 6

Compensatory beta cell growth occurs in accordance to overweight and increasing insulin demands. The proliferative actions of insulin and insulin-like growth factors are mediated via the IRS-2-PI(3)K-Akt pathway of pleiotropic insulin signaling. However, sustained activation leads to negative feedback via the mTOR-induced proteasomal degradation of IRS-2. The proliferative actions of incretins and adipokines are mediated via other pathways that ultimately converge with the IRS-2-PI(3)K-Akt axis. The incretins GIP and GLP-1 increase IRS-2 levels in beta cells by acting via the cAMP-PKA pathway, whereas leptin inhibits PTEN activity via CK2-dependent pathways. By increasing PIP(3) availability the adipokine amplifies the magnitude as well as duration of factors acting via the IRS-2-PI(3)K-Akt pathway. Considering that AMPK prevents mTOR-induced degradation of IRS-2, we propose that adiponectin and leptin cooperatively achieve compensatory beta cell growth in accordance to adiposity. In conditions of overt obesity, when adiponectin levels are too low to provide sufficient IRS-2 levels, loss of compensatory beta cell growth may occur.
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PMID:Leptin and adiponectin regulate compensatory beta cell growth in accordance to overweight. 1709 72

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