Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
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Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: EC:2.7.11.11 (
AMPK
)
12,425
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Transcription of human immunodeficiency virus (HIV-1) is activated by viral Tat protein which regulates HIV-long terminal repeat (LTR) transcription and elongation. HIV-1 Tat protein is a substrate for the deacetylase activity of sirtuin 1 (SIRT1). Here we investigate the signaling pathway involved in Tat-induced HIV-1 transactivation through SIRT1. Western blot analysis showed a significant reduction in
AMPK
activation and downstream
acetyl-CoA carboxylase
(
ACC
) activation in response to Tat treatment. NAD(+) levels and SIRT1 activity were also decreased with Tat treatment. SIRT1 activator resveratrol reversed Tat-mediated reduction in
AMPK
activation and downstream
ACC
activation; while SIRT1 inhibitor nicotinamide or knockdown of SIRT1 by siRNA potentiated Tat-mediated reduction in
AMPK
activation and downstream
ACC
activation. Consistent with this association,
AMPK
activator AICAR as well as resveratrol inhibited Tat-induced HIV-1 transactivation. On the contrary,
AMPK
inhibitor compound C, knockdown of
AMPK
by siRNA as well as nicotinamide or knockdown of SIRT1 by siRNA potentiated Tat-induced HIV-1 transactivation. Collectively, our data provide new insights into understanding of the molecular mechanisms of Tat-regulated transcription, suggesting that targeting SIRT1-
AMPK
pathway could serve as a new target for the development of new anti HIV-1 agents.
...
PMID:SIRT1 regulates Tat-induced HIV-1 transactivation through activating AMP-activated protein kinase. 1972 90
Type-2 diabetes is growing at epidemic proportions world-wide. This report describes the effect of a novel, synthetic, small molecule 2-(3,4-dihydro-2H-pyrrolium-1-yl)-3oxoindan-1-olate (DHPO), on metabolic abnormalities in genetic and dietary mouse models of type-2 diabetes. DHPO (20mg/kg/d i.p. for 21 days) attenuated fasting blood glucose, improved glucose disposal and corrected dyslipidemia in genetic (leptin deficient, ob/ob) and dietary (high-fat-fed) mouse models of insulin resistance. In addition, DHPO augmented 2-deoxy-d-glucose (2DG) uptake in gastrocnemius muscles of wild-type mice and in cultured myotubes. The increase in 2DG-uptake was associated with an increase in the phosphorylation of
AMPK
(thr-172) and its downstream effector
acetyl-CoA carboxylase
without any changes in the phosphorylation of Akt of insulin receptor. The
AMPK
inhibitor, compound C attenuated DHPO-induced glucose-uptake whereas the PI3-kinase inhibitor Wortmannin was less effective. In addition, DHPO failed to augment glucose-uptake in the gastrocnemius muscle from
AMPK
-alpha2-transgenic (kinase-dead) mice. Taken together, these results suggest that DHPO is a novel small molecule that alleviates impaired glucose tolerance and lipid abnormalities associated with type-2 diabetes.
...
PMID:2-(3,4-Dihydro-2H-pyrrolium-1-yl)-3oxoindan-1-olate (DHPO), a novel, synthetic small molecule that alleviates insulin resistance and lipid abnormalities. 1976 46
The primary objective of this study was to investigate the impact of lipid oversupply on the
AMPK
pathway in skeletal muscle, liver, and adipose tissue. Male Wistar rats were infused with lipid emulsion (LE) or phosphate-buffered saline for 5 h/day for 6 days. Muscles exposed to LE for 6 days exhibited increased
AMPK
and
acetyl-CoA carboxylase
(
ACC
) phosphorylation, along with a greater association between
AMPK
and Ca(2+)/calmodulin-dependent protein kinase kinase (CaMKK). No differences in muscle protein phosphatase 2C (PP2C) activity, LKB1 phosphorylation or
AMPK
and LKB1 association were observed. Muscle ACCbeta, and adiponectin receptor 1 (AdipoR1) mRNA levels and PPARgamma-co-activator 1alpha (PGC1alpha) protein levels were also increased in LE-treated rats. In contrast,
AMPK
and
ACC
phosphorylation decreased and PP2C activity increased in rat livers exposed to LE. Hepatic mRNA levels of ACCalpha, PPARalpha, AdipoR1, AdipoR2, and sterol regulatory element-binding protein-1c (SREBP1c) were also reduced after LE infusion. In adipose tissue, there was no significant alteration in
AMPK
or
ACC
phosphorylation. These results demonstrate that following lipid oversupply the
AMPK
pathway was enhanced in rat skeletal muscle while diminished in the liver and was unchanged in adipose tissue. CaMKK in skeletal muscle and PP2C in the liver, at least in part, appear to mediate these alterations. Alterations in
AMPK
pathway in the liver induced metabolic defects associated with lipid oversupply.
...
PMID:Infusion of a lipid emulsion modulates AMPK and related proteins in rat liver, muscle, and adipose tissues. 2005 67
The molecular mechanisms responsible for the association of obesity with adverse colon cancer outcomes are poorly understood. We investigated the effects of a high-energy diet on growth of an in vivo colon cancer model. Seventeen days following the injection of 5x10(5) MC38 colon carcinoma cells, tumors from mice on the high-energy diet were approximately twice the volume of those of mice on the control diet. These findings were correlated with the observation that the high-energy diet led to elevated insulin levels, phosphorylated AKT, and increased expression of fatty acid synthase (FASN) by the tumor cells. Metformin, an antidiabetic drug, leads to the activation of
AMPK
and is currently under investigation for its antineoplastic activity. We observed that metformin blocked the effect of the high-energy diet on tumor growth, reduced insulin levels, and attenuated the effect of diet on phosphorylation of AKT and expression of FASN. Furthermore, the administration of metformin led to the activation of
AMPK
, the inhibitory phosphorylation of
acetyl-CoA carboxylase
, the upregulation of BNIP3 and increased apoptosis as estimated by poly (ADP-ribose) polymerase (PARP) cleavage. Prior work showed that activating mutations of PI3K are associated with increased AKT activation and adverse outcome in colon cancer; our results demonstrate that the aggressive tumor behavior associated with a high-energy diet has similar effects on this signaling pathway. Furthermore, metformin is demonstrated to reverse the effects of the high-energy diet, thus suggesting a potential role for this agent in the management of a metabolically defined subset of colon cancers.
...
PMID:Metformin blocks the stimulative effect of a high-energy diet on colon carcinoma growth in vivo and is associated with reduced expression of fatty acid synthase. 2022 37
AMP-activated kinase is an evolutionarily conserved enzyme found in every eukaryotic organism examined for its presence. It plays a critical role in the shift between catabolic and anabolic metabolism. Its activity is under the control of many factors, but basically it integrates the level of intracellular AMP with signals transduced by upstream kinases. It acts through the control of the activities of other enzymes, mitochondrial biogenesis, vesicular transport, and gene expression. From a physiological point of view its effects are pleiotropic and tissue dependent. In 2004, the control of food intake in hypothalamic neurons was added to the long list of its varied functions. Since then, its crucial role in transmitting signals from all important factors that inform the brain about the body's energy level, including leptin, insulin, glucose, ghrelin, and adiponectin, has been well established. Much attention was also paid to the molecular basis of this regulation. It seems that the main targets of hypothalamic
AMPK
are
acetyl-CoA carboxylase
and mTOR and the main candidate for upstream kinase is CaMKKbeta. These discoveries seem interesting not only due to their cognitive value, but because they may also carry significant practical aspects, both in the context of
AMPK
activators, such as the use of metformin in diabetes mellitus therapy, and in the recent trend to look for new ways to deal with the increase in obesity in well-developed countries. A better understanding of the role of
AMPK
in the control of food intake may create the possibility for new therapeutic approaches in this disease.
...
PMID:[Role of hypothalamic AMP-activated protein kinase in the control of food intake]. 2049
In this study, the effects of capsaicin on expression of skeletal muscle proteins in Sprague-Dawley rats fed with a high-fat diet (HFD) were investigated. Rats were fed a HFD with or without capsaicin treatment for 8 wk. After HFD feeding, capsaicin-treated rats weighed an average of 8% less than those of the HFD control group. Gastrocnemius muscle tissue from lean and obese rats with or without capsaicin treatment was arrayed using 2-DE for detection of HFD-associated markers. Proteomic analysis using 2-DE demonstrated that 36 spots from a total of approximately 600 matched spots showed significantly different expression; 27 spots were identified as gastrocnemius muscle proteins that had been altered in response to capsaicin feeding, and 6 spots could not be identified by mass fingerprinting. Expression of various muscle proteins was determined by immunoblot analysis for the determination of molecular mechanisms, whereby capsaicin caused inhibition of adipogenesis. Immunoblot analysis revealed increased uncoupling protein 3 (UCP3) protein expression in HFD-fed rats, whereas contents were reduced with capsaicin treatment. Compared with the HFD control group, capsaicin treatment increased phosphorylation of AMP-activated protein kinase (AMPIC) CP3 and
acetyl-CoA carboxylase
(
ACC
). To support this result, we also analyzed in vitro differential protein expression in L6 skeletal muscle cells. These data suggest that the
AMPK
-
ACC
-malonyl-CoA metabolic signaling pathway is one of the targets of capsaicin action. To the best of our knowledge, this is the first proteomic study to report on analysis of diet-induced alterations of protein expression that are essential for energy expenditure in rat muscle.
...
PMID:Differential expression of skeletal muscle proteins in high-fat diet-fed rats in response to capsaicin feeding. 2051 83
Adiponectin (Ad) is an insulin-sensitizing adipokine known to stimulate fatty acid (FA) oxidation in skeletal muscle. Skeletal muscle can become resistant to Ad very rapidly, after only 3 days of high saturated fat feeding in rats. Whether the same occurs following a high polyunsaturated fat diet is unknown. Obesity, insulin resistance, and hyperlipidemia are recognized as low-grade inflammatory diseases; therefore, we hypothesized that high-fat feeding induces inflammation, which interferes with Ad action at skeletal muscle. To this end, rats were placed into one of three dietary groups, control (CON, 10% kcal from fat), high saturated (SAT), or high polyunsaturated (PUFA) fat (60% kcal from fat) for 3 days to determine whether Ad resistance develops. Half of the animals from each group were further supplemented with aspirin, a common anti-inflammatory drug. Ad stimulated FA metabolism, Ad signaling intermediates [AdipoR1, APPL1, LKB1,
AMPK
, and
acetyl-CoA carboxylase
(
ACC
)], and inflammatory proteins [Toll-like receptor (TLR4), IKK alpha/beta, IkappaB alpha, NF-kappaB, suppressor of cytokine signaling-3 (SOCS3), and JNK] were measured in soleus muscle. Three days of SAT feeding induced Ad resistance in soleus muscle, assessed as an inability of Ad to phosphorylate
ACC
and increase FA oxidation. In PUFA-fed animals, Ad-stimulated FA oxidation and
ACC
phosphorylation to the same degree as CON animals (FA oxidation: +35%, +41%; pACC +29%, +19%; CON, PUFA, P < 0.05). However, neither SAT nor PUFA feeding for 3 days induced skeletal muscle inflammation. Surprisingly, aspirin prevented Ad-stimulated increases in FA oxidation. In conclusion, FA type is critical in the development of Ad resistance, but this does not appear to be mediated by inflammation.
...
PMID:Skeletal muscle inflammation is not responsible for the rapid impairment in adiponectin response with high-fat feeding in rats. 2055 37
Curcumin is a major phenolic compound of Curcuma longa, which has long been used in traditional Indian medicine. Recently, curcumin has been reported to have antihyperglycemic activity in animal models. However, the molecular basis of this action has not been adequately described. In the present study, curcumin was observed to contain a high level of polyphenols and strong antioxidant activity. Then, the antihyperglycemic effect of curcumin was examined for various signaling pathways using C(2)C(12) mouse myoblast cells. From this, curcumin treatment strongly induced glucose uptake and the phosphorylation of
AMPK
(AMP-activated protein kinase)/ACC (
acetyl-CoA carboxylase
), but not PI3-kinase (phosphoinositide 3-kinase)/Akt. Interestingly, the co-treatment of insulin and curcumin produced a mutual synergistic activation of both
AMPK
/ACC and PI3-kinase/Akt pathways. On the other hand, the synergism could not be observed from the co-treatment of insulin and EGCG. It suggests that the two signaling pathways can crosstalk each other in a case-sensitive manner upon the treatment of antioxidant polyphenols. Further, these results were consistent with the findings of GLUT4 translocation to the cell surface. Our findings indicate that curcumin can promote
AMPK
activation and glucose uptake with increased insulin sensitivity in muscle cells as a potential anti-diabetic therapeutic agent.
...
PMID:Synergistic effect of curcumin and insulin on muscle cell glucose metabolism. 2056 44
Thujone is thought to be the main constituent of medicinal herbs that have antidiabetic properties. Therefore, we examined whether thujone ameliorated palmitate-induced insulin resistance in skeletal muscle. Soleus muscles were incubated for < or =12 h without or with palmitate (2 mM). Thujone (0.01 mg/ml), in the presence of palmitate, was provided in the last 6 h of incubation. Palmitate oxidation,
AMPK
/
acetyl-CoA carboxylase
(
ACC
) phosphorylation and insulin-stimulated glucose transport, plasmalemmal GLUT4, and AS160 phosphorylation were examined at 0, 6, and 12 h. Palmitate treatment for 12 h reduced fatty acid oxidation (-47%), and insulin-stimulated glucose transport (-71%), GLUT4 translocation (-40%), and AS160 phosphorylation (-26%), but it increased
AMPK
(+51%) and
ACC
phosphorylations (+44%). Thujone (6-12 h) fully rescued palmitate oxidation and insulin-stimulated glucose transport, but only partially restored GLUT4 translocation and AS160 phosphorylation, raising the possibility that an increased GLUT4 intrinsic activity may also have contributed to the restoration of glucose transport. Thujone also further increased
AMPK
phosphorylation but had no further effect on
ACC
phosphorylation. Inhibition of
AMPK
phosphorylation with adenine 9-beta-d-arabinofuranoside (Ara) (2.5 mM) or compound C (50 muM) inhibited the thujone-induced improvement in insulin-stimulated glucose transport, GLUT4 translocation, and AS160 phosphorylation. In contrast, the thujone-induced improvement in palmitate oxidation was only slightly inhibited (< or =20%) by Ara or compound C. Thus, while thujone, a medicinal herb component, rescues palmitate-induced insulin resistance in muscle, the improvement in fatty acid oxidation cannot account for this thujone-mediated effect. Instead, the rescue of palmitate-induced insulin resistance appears to occur via an
AMPK
-dependent mechanism involving partial restoration of insulin-stimulated GLUT4 translocation.
...
PMID:Thujone, a component of medicinal herbs, rescues palmitate-induced insulin resistance in skeletal muscle. 2057 88
The cardiac-enriched isoform of
acetyl-CoA carboxylase
(ACCbeta) produces malonyl-CoA, a potent inhibitor of carnitine palmitoyltransferase-1.
AMPK
inhibits ACCbeta activity, lowering malonyl-CoA levels and promoting mitochondrial fatty acid beta-oxidation. Previously,
AMPK
increased promoter binding of nuclear respiratory factor-1 (NRF-1), a pivotal transcriptional modulator controlling gene expression of mitochondrial proteins. We therefore hypothesized that NRF-1 inhibits myocardial ACCbeta promoter activity via
AMPK
activation. A human ACCbeta promoter-luciferase construct was transiently transfected into neonatal cardiomyocytes+/-a NRF-1 expression construct. NRF-1 overexpression decreased ACCbeta gene promoter activity by 71+/-4.6% (p<0.001 vs. control). Transfections with 5'-end serial promoter deletions revealed that NRF-1-mediated repression of ACCbeta was abolished with a pPIIbeta-18/+65-Luc deletion construct.
AMPK
activation dose-dependently reduced ACCbeta promoter activity, while NRF-1 addition did not further decrease it. We also investigated NRF-1 inhibition in the presence of upstream stimulatory factor 1 (USF1), a known transactivator of the human ACCbeta gene promoter. Here NRF-1 blunted USF1-dependent induction of ACCbeta promoter activity by 58+/-7.5% (p<0.001 vs. control), reversed with a dominant negative NRF-1 construct. NRF-1 also suppressed endogenous USF1 transcriptional activity by 55+/-6.2% (p<0.001 vs. control). This study demonstrates that NRF-1 is a novel transcriptional inhibitor of the human ACCbeta gene promoter in the mammalian heart. Our data extends
AMPK
regulation of ACCbeta to the transcriptional level.
...
PMID:AMPK activation represses the human gene promoter of the cardiac isoform of acetyl-CoA carboxylase: Role of nuclear respiratory factor-1. 2059 96
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