Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:2.7.11.11 (AMPK)
12,425 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Hormone-sensitive lipase and cholesterol ester hydrolase of chicken adipose tissue were markedly activated by adenosine 3':5'-monophosphate (cAMP)-dependent protein kinase (on the average, 235 to 275%; occasionally as much as 1000%). Diglyceride and monoglyceride hydrolases were also activated, but to a lesser extent (60 to 87%). The activation of all four hydrolases was inhibited by protein kinase inhibitor and reversed by the addition of exogenous protein kinase. Following activation by cAMP-dependent protein kinase, all four hydrolases were deactivated in a Mg2+-dependent reaction and then reactivated to or near initial levels on incubation with cAMP and Mg2+-ATP. The reversible deactivation is assumed to reflect activity of one or more protein phosphatases. The maximum activation obtainable for the four hydrolases decreased when the tissue had been previously exposed to glucagon, indicating that the glucagon-induced activation was probably similar to or identical with the activation demonstrated in cell-free preparations. The pH optima for the four hydrolase activities were similar (7.13 to 7.38). Although the absolute activities and relative degrees of kinase activation differed according to the particular emulsified substrates used, the results do not rule out the possibility that all four hydrolase activities are referable to a single hormone-sensitive hydrolase. Hormone-sensitive acyl hydrolases were separated from lipoprotein lipase by heparin-Sepharose affinity chromatography. Lipoprotein lipase was active against triolein, diolein, and monoolein, but not cholesterol oleate. Incubation of lipoprotein lipase with exogenous protein kinase, cAMP, and Mg2+ATP had no effect on any of the three hydrolase activities. Lipoprotein lipase was further purified to homogeneity and used to prepare antiserum in rabbits. The immunoglobin G fraction from these antisera completely inhibited lipoprotein lipase eluted from heparin-Sepharose columns. However, the hormone-sensitive hydrolase activities (not retained on heparin-Sepharose affinity chromatography) were not inhibited by anti-lipoprotein lipase immunoglobin G, and anti-lopoprotein lipase immunoglobin G did not affect the activation process in crude fractions. Thus, hormone-sensitive lipase and lipoprotein lipase, functionally distinct enzymes, have been physically resolved and immunochemically distinguished. Apparently lipoprotein lipase activity is not regulated, at least directly, by cAMP-dependent protein kinase.
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PMID:Triglyceride, diglyceride, monoglyceride, and cholesterol ester hydrolases in chicken adipose tissue activated by adenosine 3':5'-Monophosphate-dependent protein kinase. Chromatographic resolution and immunochemical differentiation from lipoprotein lipase. 0 45

Cholesterol ester hydrolase activity has been studied in mammary glands of rats. Subcellular fractionation of the glands obtained in mid-lactation indicated that around 80% of the recovered activity was associated with particulate fractions. Two distinct cholesterol ester hydrolase activities were identified, one with an optimum pH of 7.5-9.0 and the second (approximately 5% of the total activity) with a more acidic pH optimum. Although the neutral cholesterol ester hydrolase had some properties in common with the lipoprotein lipase in mammary tissue, it was shown to be a separate entity by several criteria. Its activity could be increased following treatment with Mg-ATP and cAMP-dependent protein kinase, suggesting identity with the hormone sensitive lipase of adipose tissue. The cholesterol ester hydrolase activity in mammary glands just after parturition was greater than in glands obtained either from late-pregnant or midlactating animals. The subcellular distribution of the neutral cholesterol ester hydrolase suggested that it may have a different function to the neutral cholesterol ester hydrolase of adrenals and other tissues. Nevertheless the fact that the activity of the enzyme can be modulated by cAMP-dependent protein kinase suggests the possibility that hormonal control of this enzyme may be involved in the regulation of cholesterol metabolism in the mammary gland.
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PMID:Cholesterol ester hydrolase activity in mammary tissue of the lactating rat. 164 25

Although the renal medulla is rich in triacylglycerols, the lipolysis of these intracellular triacylglycerols by a renomedullary triacylglycerol lipase has not been directly demonstrated. The present study demonstrates triacylglycerol lipase activity localized in the particulate subcellular fractions of rabbit renal medullae. Renomedullary triacylglycerol lipase activity, as determined by the hydrolysis of [14C]triolein to [14C]oleic acid, was observed to have a pH optimum of 5.8. Addition of cAMP/ATP/magnesium acetate resulted in an 80% activation of crude homogenate triacylglycerol lipase activity; addition of exogenous cAMP-dependent protein kinase resulted in a further activation of lipolysis. 3 mM CaCl2 had no effect on basal triacylglycerol lipase activity. 1 M NaCl did not inhibit lipolysis, suggesting that the lipase activity measured was not due to lipoprotein lipase. Endogenous renomedullary triacylglycerols were hydrolysed by a lipase in the 100,000 X g pellet of renomedullary homogenates, resulting in the release of free fatty acids including arachidonic and adrenic acids. Dispersed renomedullary cells were prepared to monitor hormone-sensitive triacylglycerol lipase activity in intact cells. Addition of 10 microM forskolin and 10 microM epinephrine resulted in 8-fold and 50-fold increases in triacylglycerol lipase activity, respectively, as defined by release of free glycerol from the cells. These studies demonstrate that a cAMP-dependent hormone-sensitive triacylglycerol lipase is present in the renal medulla, and is responsible for the hydrolysis of renomedullary triacylglycerols.
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PMID:Triacylglycerol lipase activity in the rabbit renal medulla. 282 29

Fatty acid metabolism in adipocytes is known to be regulated by the intracellular transducer cAMP. This study was undertaken to determine the temporal and hormonal regulation of cAMP-dependent protein kinase during the differentiation of preadipocyte mesenchymal cells to adipocytes. For this we have used a stable cell line (TA1) in which the undifferentiated preadipocyte acquires adipocyte functions and morphology after growth to confluence. We observed that synthesis of type I and II cAMP-dependent protein kinases was induced during the adipogenic conversion of growth-arrested TA1 cells. In preconfluent cells, neither mRNAs encoding regulatory subunits (RI, RII beta) and catalytic subunit (C alpha) nor the peptides themselves were detectable. Within several days of growth arrest at high cell density, mRNAs for RI, RII beta, and C alpha were detectable in total RNA extracted from cell populations. The subunits themselves were detectable in some, but not all, of the cells by indirect immunofluorescence. Immunoblotting of cytosolic extracts indicated that RI and the beta-isoform of RII (mol wt = 52,000) were expressed in these cells. Analysis of subunit presence or absence in single cells by immunofluorescence also indicated that kinase subunit expression preceded the accumulation of lipid droplets within the cells. Further, the subunits were predominantly associated with a reticular cytoplasmic structure (Golgi apparatus?) abutting the nucleus. Conversion of TA1 cells to adipocytes can be accelerated by indomethacin (125 microM) or dexamethasone (1 microM) treatment, compounds that also enhanced the accumulation of RII beta and C alpha mRNAs. Within 2-3 days of addition of indomethacin to confluent cultures, RII beta message content is increased about 20-fold, and protein content is increased about 5-fold relative to those in untreated cultures. C alpha mRNA content is increased about 5-fold relative to that in untreated cells. The response to dexamethasone requires 6-7 days, and changes in RII beta message levels were the most pronounced. We also observed the induction of mRNAs for the functionally relevant mRNA lipoprotein lipase in indomethacin-treated cells. In addition to this apparent transcriptional regulation of kinase subunit expression, we provide evidence for regulation at the posttranscriptional level. Within a differentiated culture, there exist stem cells that can be selected, will repopulate the dish, and will again differentiate into adipocytes upon growth arrest at high cell density. In preconfluent populations of these stems cells, unlike the preconfluent TA1 cells originally plated, both RII beta and C alpha messages were present.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Induction of adenosine 3',5'-monophosphate-dependent protein kinase subunits during adipogenesis in vitro. 284 11

Lipolysis of intracellular triglycerides in the heart has been shown to be regulated by hormones. However, activation of myocardial triglyceride lipase in a cell-free system has not been directly demonstrated. In the present studies, initial attempts to demonstrate cAMP-dependent activation of triglyceride lipase using the 1,000 X g supernatant fraction (S1) of mouse heart homogenate were unsuccessful, presumably due to the masking effects of high levels of lipoprotein lipase activity even when assayed at pH 7.4 and in the absence of apolipoprotein C-II. Myocardial lipoprotein lipase in the 40,000 X g supernatant fraction was then removed by heparin-Sepharose affinity chromatography. The lipoprotein lipase-free fractions were shown to contain neutral triglyceride lipase and neutral cholesterol esterase of about equal activities. The triglyceride lipase and cholesterol esterase activities fell progressively during preincubation in the presence of 5 mM Mg2+. Additions of cAMP and ATP resulted in 40-70% activation of both triglyceride lipase and cholesterol esterase. The activation was blocked by protein kinase inhibitor and was restored by the addition of exogenous cAMP-dependent protein kinase. Since lipoprotein lipase has no activity toward cholesteryl oleate, activation of cholesterol esterase in untreated S1 was readily demonstrable. Both triglyceride lipase and cholesterol esterase activities were present in homogenates prepared from isolated rat heart myocytes. We conclude that the myocardium contains a hormone-sensitive lipase that is regulated in a fashion similar to that of the adipose tissue enzyme.
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PMID:Activation of myocardial neutral triglyceride lipase and neutral cholesterol esterase by cAMP-dependent protein kinase. 298 7

An attempt was made to activate the capillary-bound fraction of lipoprotein lipase (LPL) with cAMP-dependent protein kinase catalytic subunit (PKC). Following a 30s washout period, hearts were perfused for 1 min with buffer containing heparin. Medium was collected during the second 30s of heparin perfusion. Addition of PKC+Mg-ATP to this capillary bed perfusate increased LPL activity from 6.84 +/- 0.72 nmol/ml/min to 13.76 +/- 1.12 nmol/ml/min (P less than 0.001). A similar 2-fold increase in activity was observed when results were expressed on a mg protein basis. Removal of serum from, or addition of 1.0M NaCl to, the assay system inhibited PKC-stimulated LPL activity approximately 85%. These results indicate that capillary alkaline LPL can be activated by PKC assayed under experimental conditions free of other TG lipases. Moreover, these findings suggest that the intracellular fraction of LPL can be activated by cAMP and that this activation is mediated through protein phosphorylation by cAMP-dependent protein kinase.
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PMID:Protein kinase activation of heparin-releasable lipoprotein lipase in rat heart. 395 70

Mechanisms of the stimulatory release of lipoprotein lipase (LPL) activity from isolated rat fat pads by sodium orthovanadate (vanadate) were studied through a cAMP-dependent process. A potent inhibitor of insulin receptor tyrosine kinase, quercetin, inhibited the vanadate-increasing effect on the LPL activity in fat pads, but did not inhibit the vanadate-stimulated release of LPL activity from the fat pads. Propranolol and N-[2-(methylamino)ethyl]-5-isoquinolinesulfonamide (H-8) decreased the vanadate-stimulated release in a dose-dependent manner. Isoproterenol and dibutyryl cAMP (Bt2cAMP) stimulated the release of LPL activity from fat pads. Vanadate, as well as isoproterenol, rapidly increased the cAMP content in fat pads, and this increase was almost completely inhibited by propranolol. Vanadate increased the cAMP-dependent protein kinase (PKA) activity ratios calculated from the measurement in the presence or absence of cAMP or PKa inhibitor. These results suggest that the vanadate-stimulated release of LPL activity is associated with a process involving a rapid increase in the cAMP content accompanied by the activation of PKA.
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PMID:Involvement of the rapid increase in cAMP content in the vanadate-stimulated release of lipoprotein lipase activity from rat fat pads. 895 Nov 55

Astilbin, a dihydroflavonol rhamnoside isolated from the leaves of Engelhardtia chrysolepis, enhanced the vanadate-stimulated release of lipoprotein lipase (LPL) activity from rat isolated fat pads. N-[2-(Methyl-amino)ethyl]-5-isoquinolinesulfonamide (H-8), a potent inhibitor of cAMP-dependent protein kinase (PKA), markedly inhibited the enhancement by astilbin. Lipolysis in the fat pads was stimulated by astilbin alone in a dose-dependent manner and this stimulation was suppressed in the presence of vanadate, probably due to its antilipolytic action. A significant enhancement by astilbin was observed with increasing effects of vanadate on cAMP content in the fat pads and on cAMP phosphodiesterase (PDE) activity in the particulate fraction although astilbin alone showed only a slight increase in the cellular cAMP content and PDE activity. Astilbin may enhance the vanadate-stimulated release of LPL activity through a synergistic effect on an increase in the cellular cAMP content produced by vanadate accompanied by more potent activation of PKA.
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PMID:Enhancement of the vanadate-stimulated release of lipoprotein lipase activity by astilbin from the leaves of Engelhardtia chrysolepis. 963 10

The balance of lipid flux in adipocytes is controlled by the opposing actions of lipolysis and lipogenesis, which are controlled primarily by hormone-sensitive lipase and lipoprotein lipase (LPL), respectively. Catecholamines stimulate adipocyte lipolysis through reversible phosphorylation of hormone-sensitive lipase, and simultaneously inhibit LPL activity. However, LPL regulation is complex and previous studies have described translational regulation of LPL in response to catecholamines because of an RNA-binding protein that interacts with the 3'-untranslated region of LPL mRNA. In this study, we identified several protein components of an LPL RNA binding complex. Using an LPL RNA affinity column, we identified two of the RNA-binding proteins as the catalytic (C) subunit of cAMP-dependent protein kinase (PKA), and A kinase anchoring protein (AKAP) 121/149, one of the PKA anchoring proteins, which has known RNA binding activity. To determine whether the C subunit was involved in LPL translation inhibition, the C subunit was depleted from the cytoplasmic extract of epinephrine-stimulated adipocytes by immunoprecipitation. This resulted in the loss of LPL translation inhibition activity of the extract, along with decreased RNA binding activity in a gel shift assay. To demonstrate the importance of the AKAPs, inhibition of PKA-AKAP binding with a peptide competitor (HT31) prevented epinephrine-mediated inhibition of LPL translation. C subunit kinase activity was necessary for LPL RNA binding and translation inhibition, suggesting that the phosphorylation of AKAP121/149 or other proteins was an important part of RNA binding complex formation. The hormonal activation of PKA results in the reversible phosphorylation of hormone-sensitive lipase, which is the primary mediator of adipocyte lipolysis. These studies demonstrate a dual role for PKA to simultaneously inhibit LPL-mediated lipogenesis through inhibition of LPL translation.
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PMID:The translational regulation of lipoprotein lipase by epinephrine involves an RNA binding complex including the catalytic subunit of protein kinase A. 1221 46

Changes in rat mammary fat pad during pregnancy were assessed by studying differences in the morphology and composition of the pad and in the levels of proteins involved in the accumulation and mobilization of fat stores. During pregnancy, the mammary fat pad weight had increased 1.8-fold by day 20, as compared with control rats. DNA content had increased two-fold by day 13 and remained stable until day 20. Protein content showed a two-fold increase on day 20, compared with control rats. As pregnancy advanced, both the percentage of mammary gland cells with respect to the whole mammary fat pad and the size of the adipocytes increased. The specific content of the different elements of the lipolytic pathway, viz. (alpha(2A)-adrenergic receptor (AR), beta(3)-AR, cAMP-dependent protein kinase and hormone-sensitive lipase (HSL)) underwent a decrease as pregnancy progressed, although adenylate cyclase increased greatly. The lipoprotein lipase (LPL) content per gram of tissue increased with pregnancy and the HSL-to-LPL ratio reflected a continuous increase in the triglyceride storage throughout pregnancy. Thus, the mammary fat pad undergoes extensive morphological, compositional and metabolic transformation during pregnancy, attributable to the development of the mammary gland. The various elements of the lipolytic pathway and LPL undergo major changes during the development of the mammary gland focused towards the increase of fat stores and allowing the accumulation of lipid droplets in the epithelial mammary cells and an increase in adipocyte size.
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PMID:Changes in mammary fat pad composition and lipolytic capacity throughout pregnancy. 1632 96


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