Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

Cells must coordinate diverse processes including cell division, cell migration, and cell polarity with the cell's metabolic status. How single molecules coordinate these seemingly distinct cell biological events remains relatively unexplored. AMP-activated protein kinase (AMPK) sits at a unique position as a proposed energy sensor that can interface with diverse signaling molecules ranging from LKB1 to mammalian target of rapamycin (mTOR), affecting processes from ribosomal biogenesis to actin regulation. Determining biologically relevant direct kinase targets remains challenging. Alternatively, one can genetically inactivate a kinase and subsequently characterize cellular and whole animal phenotypes without the kinase's activity. Recent genetic studies inactivating AMPK activity in Drosophila indicate unanticipated roles for AMPK as a regulator of epithelial polarity, consistent with known roles of an upstream activator, LKB1 as a PAR (portioning defective) mutant in Caenorhabditis elegans and polarity regulator. Additional genetic analyses demonstrate that both AMPK and LKB1 function are required for faithful chromosomal segregation during mitosis. At least some of these apparently divergent phenotypes may be mediated through myosin regulatory light chain, and presumably the acto-myosin complex, which can affect both polarity and cell division. Chromosomal integrity defects could also be consistent with LKB1's role as a known human tumor suppressor gene. Elucidating the molecular players that interface with AMPK and their potential energy dependent regulation remains an important challenge to fully understand AMPK signaling.
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PMID:AMPK/LKB1 signaling in epithelial cell polarity and cell division. 1798 59

Metformin is used for the treatment of type 2 diabetes because of its ability to lower blood glucose. The effects of metformin are explained by the activation of AMP-activated protein kinase (AMPK), which regulates cellular energy metabolism. Recently, we showed that metformin inhibits the growth of breast cancer cells through the activation of AMPK. Here, we show that metformin inhibits translation initiation. In MCF-7 breast cancer cells, metformin treatment led to a 30% decrease in global protein synthesis. Metformin caused a dose-dependent specific decrease in cap-dependent translation, with a maximal inhibition of 40%. Polysome profile analysis showed an inhibition of translation initiation as metformin treatment of MCF-7 cells led to a shift of mRNAs from heavy to light polysomes and a concomitant increase in the amount of 80S ribosomes. The decrease in translation caused by metformin was associated with mammalian target of rapamycin (mTOR) inhibition, and a decrease in the phosphorylation of S6 kinase, ribosomal protein S6, and eIF4E-binding protein 1. The effects of metformin on translation were mediated by AMPK, as treatment of cells with the AMPK inhibitor compound C prevented the inhibition of translation. Furthermore, translation in MDA-MB-231 cells, which lack the AMPK kinase LKB1, and in tuberous sclerosis complex 2 null (TSC2(-/-)) mouse embryonic fibroblasts was unaffected by metformin, indicating that LKB1 and TSC2 are involved in the mechanism of action of metformin. These results show that metformin-mediated AMPK activation leads to inhibition of mTOR and a reduction in translation initiation, thus providing a possible mechanism of action of metformin in the inhibition of cancer cell growth.
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PMID:Metformin inhibits mammalian target of rapamycin-dependent translation initiation in breast cancer cells. 1800 25

Adiponectin has received much attention due to its beneficial effects on insulin sensitivity, and epidemiologic studies have further shown an inverse association between adiponectin levels and risk for multiple tumors, which is independent of the IGF system or other risk factors. Previous studies have shown that adiponectin can activate AMP-activated protein kinase (AMPK) in myocytes, hepatocytes, and adipocytes, suggesting that adiponectin may suppress tumor development through AMPK activation and subsequent inhibition of mammalian target of rapamycin (mTOR). However, the mechanisms through which adiponectin affects cancer cells are not understood, and it remains to be determined whether adiponectin is linked to the same downstream targets in all cells types, and in particular in cancer cells. In the present study, we demonstrate that while adiponectin stimulates AMPK in phosphatase and tensin homolog deleted on chromosome ten (PTEN) deficient LNCaP prostate cancer cells, it also increases mTOR activity as assessed by phosphorylation of two downstream targets, p70 S6 kinase and ribosomal protein S6. This adiponectin stimulation of mTOR was mediated through phosphatidylinositol 3-kinase (PI3 kinase) and Akt activation. These results show that adiponectin can activate both AMPK and PI3 kinase/Akt pathways, and that cell type-specific factors such as PTEN status may determine which of these pathways will have the dominant effect on mTOR. Therefore, while it is possible that high endogenous adiponectin levels could be protective against cancer by direct mechanisms or indirect systemic mechanisms, our results indicate that adiponectin may also directly stimulate signaling pathways that enhance the growth of some tumors.
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PMID:Adiponectin signals in prostate cancer cells through Akt to activate the mammalian target of rapamycin pathway. 1804 51

The present study was designed to test the hypothesis that increasing physical activity by running exercise could favor the recovery of muscle mass after extensive injury and to determine the main molecular mechanisms involved. Left soleus muscles of female Wistar rats were degenerated by notexin injection before animals were assigned to either a sedentary group or an exercised group. Both regenerating and contralateral intact muscles from active and sedentary rats were removed 5, 7, 14, 21, 28 and 42 days after injury (n = 8 rats/group). Increasing contractile activity through running exercise during muscle regeneration ensured the full recovery of muscle mass and muscle cross-sectional area as soon as 21 days after injury, whereas muscle weight remained lower even 42 days postinjury in sedentary rats. Proliferator cell nuclear antigen and MyoD protein expression went on longer in active rats than in sedentary rats. Myogenin protein expression was higher in active animals than in sedentary animals 21 days postinjury. The Akt-mammalian target of rapamycin (mTOR) pathway was activated early during the regeneration process, with further increases of mTOR phosphorylation and its downstream effectors, eukaryotic initiation factor-4E-binding protein-1 and p70(s6k), in active rats compared with sedentary rats (days 7-14). The exercise-induced increase in mTOR phosphorylation, independently of Akt, was associated with decreased levels of phosphorylated AMP-activated protein kinase. Taken together, these results provided evidence that increasing contractile activity during muscle regeneration ensured early and full recovery of muscle mass and suggested that these beneficial effects may be due to a longer proliferative step of myogenic cells and activation of mTOR signaling, independently of Akt, during the maturation step of muscle regeneration.
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PMID:Recovery of skeletal muscle mass after extensive injury: positive effects of increased contractile activity. 1807 4

Survivin plays important roles in maintaining cell proliferation and survival and promoting tumorigenesis. The present study was conducted to determine the stage of lung carcinogenesis at which survivin expression is induced and to investigate how survivin affects the chemopreventive action of deguelin. In in vitro studies, we observed higher levels of survivin expression in a subset of premalignant and malignant human bronchial epithelial (HBE) and non-small-cell lung cancer (NSCLC) cell lines than in normal HBE cells, and in in vivo studies, a higher level of survivin expression in specimen of human lung dysplasia than in normal lung specimens. Treatment with deguelin inhibited de novo synthesis of survivin protein and induced apoptosis, resulting in suppression of transformation phenotypes, in the premalignant and malignant HBE and NSCLC cell lines. Deguelin inhibited survivin expression in tuberous sclerosis complex 2 (TSC2) wild-type mouse embryonic fibroblasts (MEF) but not in TSC2-knockout MEFs in which mammalian target of rapamycin (mTOR) is constitutively active. Deguelin induced activation of AMP-activated protein kinase (AMPK) and inactivation of Akt. Overexpression of constitutively active Akt abolished deguelin-induced modulation of AMPK activity and survivin expression. Conversely, inactivation of AMPK by compound C or AMPKalpha1/2 small interfering RNA restored Akt and mTOR activities and survivin expression in deguelin-treated HBE cells. These results suggest that survivin expression is induced as an early event in lung carcinogenesis, and deguelin acts as a chemopreventive agent by inducing a reciprocal regulation between AMPK and Akt, resulting in the inhibition of mTOR-mediated survivin.
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PMID:Implication of AMP-activated protein kinase and Akt-regulated survivin in lung cancer chemopreventive activities of deguelin. 1808 92

Lkb1 is a central regulator of cell polarity and energy metabolism through its capacity to activate the AMP-activated protein kinase (AMPK)-related family of protein kinases. Germ line-inactivating mutation of Lkb1 leads to Peutz-Jeghers syndrome, which is characterized by benign hamartomas and a susceptibility to malignant epithelial tumors. Mutations in Lkb1 are also found in sporadic carcinomas, most frequently in lung cancers associated with tobacco carcinogen exposure. The basis for Lkb1-dependent tumor suppression is not defined. Here, we uncover a marked sensitivity of Lkb1 mutant mice to the chemical carcinogen 7,12-dimethylbenz(a)anthracene (DMBA). Lkb1(+/-) mice are highly prone to DMBA-induced squamous cell carcinoma (SCC) of the skin and lung. Confirming a cell autonomous tumor suppressor role of Lkb1, mice with epidermal-specific Lkb1 deletion are also susceptible to DMBA-induced SCC and develop spontaneous SCC with long latency. Restoration of wild-type Lkb1 causes senescence in tumor-derived cell lines, a process that can be partially bypassed by inactivation of the Rb pathway, but not by inactivation of p53 or AMPK. Our data indicate that Lkb1 is a potent suppressor of carcinogen-induced skin and lung cancers and that downstream targets beyond the AMPK-mTOR pathway are likely mediators of Lkb1-dependent tumor suppression.
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PMID:LKB1 deficiency sensitizes mice to carcinogen-induced tumorigenesis. 1817 96

Regulation of protein translation through Akt and the downstream mammalian target of rapamycin (mTOR) pathway is an important component of the cellular response to hypertrophic stimuli. It has been proposed that 5'-AMP-activated protein kinase (AMPK) activation during muscle contraction may limit the hypertrophic response to resistance-type exercise by inhibiting translational signaling. However, experimental manipulation of AMPK activity during such a stimulus has not been attempted. Therefore, we investigated whether AMPK activation can attenuate the downstream signaling response of the Akt/mTOR pathway to electrically stimulated lengthening muscle contractions. Extensor digitorum longus muscles (n = 8/group) were subjected to a 22-min bout of lengthening contractions by high-frequency sciatic nerve electrical stimulation (STIM) in young adult (8 mo) Fischer 344 x Brown Norway male rats. Forty minutes before electrical stimulation, rats were subcutaneously injected with saline or 5-aminoimidazole-4-carboxamide-1-4-ribofuranoside (AICAR; 1 mg/g body wt), an AMPK activator. Stimulated and contralateral resting muscles were removed at 0, 20, and 40 min post-STIM, and AMPK, acetyl CoA carboxylase (ACC), Akt, eukaryotic initiation factor 4E-binding protein (4E-BP1), 70-kDa ribosomal protein S6 kinase (S6K1), and eukaryotic elongation factor 2 (eEF2) phosphorylations were assessed by Western blot. AICAR treatment increased (P < or = 0.05) post-STIM AMPK (Thr172) and ACC phosphorylation (Ser79/221), inhibited post-STIM S6K1 (Thr389) and 4E-BP1 (gel shift) phosphorylation, and elevated post-STIM eEF2 phosphorylation (Thr56). These findings suggest that translational signaling downstream of Akt/mTOR can be inhibited after lengthening contractions when preceded by AMPK activation and that energetic stress may be antagonistic to the hypertrophic translational signaling response to loaded muscle contractions.
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PMID:AMPK activation attenuates S6K1, 4E-BP1, and eEF2 signaling responses to high-frequency electrically stimulated skeletal muscle contractions. 1818 10

Loss of function of the tumor suppressor LKB1 occurs in 30% to 50% of lung adenocarcinomas. Because LKB1 activates AMP-activated protein kinase (AMPK), which can negatively regulate mTOR, AMPK activation might be desirable for cancer therapy. However, no known compounds activate AMPK independently of LKB1 in vivo, and the usefulness of activating AMPK in LKB1-mutant cancers is unknown. Here, we show that lipid-based Akt inhibitors, phosphatidylinositol ether lipid analogues (PIA), activate AMPK independently of LKB1. PIAs activated AMPK in LKB1-mutant non-small cell lung cancer (NSCLC) cell lines with similar concentration dependence as that required to inhibit Akt. However, AMPK activation was independent of Akt inhibition. AMPK activation was a major mechanism of mTOR inhibition. To assess whether another kinase capable of activating AMPK, CaMKK beta, contributed to PIA-induced AMPK activation, we used an inhibitor of CaMKK, STO-609. STO-609 inhibited PIA-induced AMPK activation in LKB1-mutant NSCLC cells, and delayed AMPK activation in wild-type LKB1 NSCLC cells. In addition, AMPK activation was not observed in NSCLC cells with mutant CaMKK beta, suggesting that CaMKK beta contributes to PIA-induced AMPK activation in cells. AMPK activation promoted PIA-induced cytotoxicity because PIAs were less cytotoxic in AMPKalpha-/- murine embryonic fibroblasts or LKB1-mutant NSCLC cells transfected with mutant AMPK. This mechanism was also relevant in vivo. Treatment of LKB1-mutant NSCLC xenografts with PIA decreased tumor volume by approximately 50% and activated AMPK. These studies show that PIAs recapitulate the activity of two tumor suppressors (PTEN and LKB1) that converge on mTOR. Moreover, they suggest that PIAs might have utility in the treatment of LKB1-mutant lung adenocarcinomas.
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PMID:Phosphatidylinositol ether lipid analogues induce AMP-activated protein kinase-dependent death in LKB1-mutant non small cell lung cancer cells. 1819 55

The activation of the AMP-activated protein kinase (AMPK) and inhibition of the mammalian target of rapamycin complex 1 (mTORC1) is hypothesized to underlie the fact that muscle growth following resistance exercise is decreased by concurrent endurance exercise. To directly test this hypothesis, the capacity for muscle growth was determined in mice lacking the primary upstream kinase for AMPK in skeletal muscle, LKB1. Following either 1 or 4 weeks of overload, there was no difference in muscle growth between the wild type (wt) and LKB1(-/-) mice (1 week: wt, 38.8 +/- 7.75%; LKB1(-/-), 27.8 +/- 12.98%; 4 week: wt, 75.8 +/- 15.2%; LKB1(-/-), 85.0 +/- 22.6%). In spite of the fact that the LKB1 had been knocked out in skeletal muscle, the phosphorylation and activity of the alpha1 isoform of AMPK were markedly increased in both the wt and the LKB1(-/-) mice. To identify the upstream kinase(s) responsible, we studied potential upstream kinases other than LKB1. The activity of both Ca(2+)-calmodulin-dependent protein kinase kinase alpha (CaMKKalpha) (5.05 +/- 0.86-fold) and CaMKKbeta (10.1 +/- 2.59-fold) increased in the overloaded muscles, and this correlated with their increased expression. Phosphorylation of TAK-1 also increased 10-fold following overload in both the wt and LKB1 mice. Even though the alpha1 isoform of AMPK was activated by overload, there were no increases in expression of mitochondrial proteins or GLUT4, indicating that the alpha1 isoform is not involved in these metabolic adaptations. The phosphorylation of TSC2, an upstream regulator of the TORC1 pathway, at the AMPK site (Ser1345) was increased in response to overload, and this was not affected by LKB1 deficiency. Taken together, these data suggest that the alpha1 isoform of AMPK is preferentially activated in skeletal muscle following overload in the absence of metabolic adaptations, suggesting that this isoform might be important in the regulation of growth but not metabolism.
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PMID:Normal hypertrophy accompanied by phosphoryation and activation of AMP-activated protein kinase alpha1 following overload in LKB1 knockout mice. 1820 1

2-Deoxyglucose (2-DG), which has been shown to inhibit mammary carcinogenesis, was used as a metabolic probe to investigate effects of limiting energy availability (reduced cellular ATP) on patterns of proteins' phosphorylation that play a role in the development of cancer. Experiments were conducted using a human breast cancer cell line, MDA-MB-468, and 1-methyl-1-nitrosourea-induced rat model for mammary carcinogenesis. Under in vitro conditions in which cellular ATP concentration decreased rapidly with increasing 2-DG in a dose and time dependent manner, levels of phosphorylated mammalian target of rapamycin (P-mTOR) decreased in parallel to decreases in ATP concentration. Concomitantly, phosphorylation of two upstream regulators of mTOR, AMP-activated protein kinase (AMPK) and Akt/protein kinase B were increased and decreased, respectively, with increased levels of phosphorylated acetyl-CoA carboxylase as an indicator of AMPK activation. Levels of insulin like growth factor 1-receptor and phosphoinositide-3 kinase p110 alpha were also reduced. Similar effects were observed in mammary carcinomas in vivo at concentration of 0.03% (w/w) dietary 2-DG that inhibited carcinogenesis. In vitro, downregulation of mTOR was accompanied by decreases in phosphorylation of two of mTOR's targets, 70-kDa ribosomal protein S6 kinase and eukaryote initiation factor 4E binding protein 1. Glucose treatment reversed 2-DG effects. When cells were transfected with dominant-negative AMPK alpha 2, effects of 2-DG on mTOR and its downstream effectors were diminished, providing evidence of a link between AMPK and mTOR when energy availability was limited. This work indicates that AMPK, Akt, and mTOR are candidate targets for efforts to inhibit the carcinogenic process by limiting energy availability.
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PMID:Modulation of the activities of AMP-activated protein kinase, protein kinase B, and mammalian target of rapamycin by limiting energy availability with 2-deoxyglucose. 1824 80


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