Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.11.1 (protein kinase)
 81,284 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Cholesterol ester hydrolase activity was determined in preparations of rabbit and guinea pig aorta utilizing micellar and glycerol-dispersed cholesterol oleate substrates. Both substrate preparations demonstrated an acid pH optimum of 4--5 for the soluble and particulate rabbit media cholesterol ester hydrolase, suggesting a lysosomal origin for this activity. Approximately one-fifth of the total recovered activity was particulate. Particulate media preparations from guinea pig aorta also demonstrated cholesterol ester hydrolase activity at acid pH values with a definite optimum at pH 5 for the glycerol-dispersed substrate. However, in contrast to the rabbit media enzyme, activity was also observed at neutral pH with another optimum at pH 7. The supernatant enzyme from guinea pig media exhibited only a single pH optimum of 7. Cholesterol ester hydrolase activity from either rabbit or guinea pig media was not influenced by preincubation with cyclic AMP, ATP and protein kinase. The addition of chloroquine resulted in the inhibition of both the rabbit and guinea pig enzyme. Cholesterol ester hydrolase activity from rabbit and guinea pig media was also inhibited by phenyl methane sulfonyl fluoride; activity measured at pH 7 (guinea pig) was more sensitive to inhibition than activity measured at pH 5 (guinea pig and rabbit).
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PMID:Characterization of cholesterol ester hydrolase activities in rabbit and guinea pig aortas. 3 Apr 61

The reversible deactivation of chicken adipose tissue hormone-sensitive lipase alpha(previously activated with Mg2+ ATP and adenosine 3':5'-monophosphate) required Mg2+ and was inhibited by phosphate. These results are consistent with the assumption that deactivation of the protein kinase-activated enzyme is catalyzed by a lipase phosphatase. Cholesterol ester is catalyzed by a lipase phosphatase. Cholesterol ester hydrolase similarly was activated and reversibly deactivated. The activity of endogenous lipase phosphatase in pH 5.2 precipitate fractions was reduced, and in some cases eliminated, by incubation at 50 degrees for 20 min in buffer containing 20% glycerol. Heating at 50 degrees greatly increased the apparent percentage activation of triglyceride and cholesterol ester hydrolases but this was due to a selective decrease in basal (nonactivated) hydrolase activities. Essentially all endogenous lipase phosphatase could be removed by treatment of the pH 5.2 precipitate fraction with ATP-Sepharose affinity gel. The addition of a partially purified preparation of rat liver phosphorylase phosphatase deactivated triglyceride and cholesterol ester hydrolases. The deactivation process was concentration, 5 mM) and was inhibited by 5 mM phosphate and by phosphorylase alpha. Reversible deactivation of hormone-sensitive lipase alpha was also observed with crude prepa- and by phosphorylase alpha. Reversible deactivation of hormone-sensitive lipas alpha was also observed with crude preparations of phosphoprotein phosphatases from rat and turkey hearts, and from rat epididymal fat pads. Thus, hormone-sensitive lipase is deactivated by a variety of phosphoprotein phosphatases from different tissues and different species, implying a low degree of specificity for the deactivating system.
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PMID:Role of phosphoprotein phosphatases in reversible deactivation of chicken adipose tissue hormone-sensitive lipase. 19 Feb 35

The activities of the membrane-bound protein kinases of the human erythrocytes membrane that phosphorylate spectrin, band-3 protein, and phospholipids were compared in patients with myotonic muscular dystrophy and normal age- and sex-matched controls. These activities tended to be lower in the patients, but the differences were not statistically significant. In contrast, the temperature responses (the increase in activity in response to an increase in temperature from 30 degrees C to 37 degrees C) of the spectrin and band-3 protein kinase activities were significantly lower in the patients. Although they do not eliminate an alteration of one of the substrates, these results are consistent with the proposal that differences in erythrocytes from myotonic muscular dystrophy (MyD) patients are due to a membrane lipid change. Cholesterol is unlikely to be the altered lipid, as no difference in membrane cholesterol content was found.
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PMID:Myotonic muscular dystrophy: abnormal temperature response of membrane phosphorylation in erythrocyte membranes. 22 55

Cyclic AMP has been implicated to a greater or lesser extent in the regulation of four key enzymes which interact to regulate intracellular cholesterol metabolism; HMG CoA reductase; ACAT; cholesteryl ester hydrolase; and cholesterol 7 alpha hydroxylase. The relationship between these enzymes and the sites where current evidence suggests that cyclic AMP may be involved are summarized in Fig. 3. Cholesterol 7 alpha hydroxylase controls the catabolism of cholesterol to bile acids in the liver, and thus its removal from the body via the bile, but does not have a major role in cholesterol metabolism in extrahepatic tissues. It is clear that cyclic AMP is able to influence the activity of this enzyme in liver sub-cellular fractions and isolated hepatocytes in vitro, and studies in our laboratory have shown that changes in Ca2+ fluxes within the cell may be important in its mechanism of action. Whether or not the cyclic nucleotide has a role regulating cholesterol 7 alpha hydroxylase activity in vivo, however, is not known. HMG CoA reductase is inactivated by phosphorylation both in vitro and in vivo, but although cyclic AMP and glucagon have been shown to inhibit the enzyme, cyclic AMP-dependent protein kinase is not directly involved. The exact mechanism by which the cyclic nucleotide influences the system remains unclear, but it may be related to activation of microsomal phosphatases. The activity of ACAT has been shown to be modulated by phosphorylation in a number of tissues in vitro, but the involvement of cyclic AMP has not been unequivocally demonstrated.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Cyclic AMP and the regulation of cholesterol metabolism. 132 21

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

The site of action of 5-hydroperoxyeicosatetraenoic acid (5-HPETE) in ACTH-induced stimulation of steroidogenesis was examined in rat adrenocortical fasciculata cells. Prior addition of AA861, a specific inhibitor of 5-lipoxygenase, had no significant effect on cyclic AMP-dependent protein kinase activity and cholesterol esterase activities, when stimulated by ACTH in adrenocortical cells, compared with that stimulated by ACTH alone. Cholesterol accumulation in the mitochondria of cells treated with ACTH and cycloheximide was also not altered by pretreatment with AA861. We found, however, that pregnenolone formation, stimulated by ACTH, decreased in a dose-dependent manner when cells were pretreated with AA861. The inhibition of ACTH-stimulated pregnenolone formation by treatment with AA861 was restored only by prior addition of 5-HPETE. Furthermore, addition of AA861 also did not affect the conversion of pregnenolone into corticosterone. In conclusion, 5-HPETE may act at the level of the mitochondria in ACTH-induced steroidogenesis in rat adrenal fasciculata cells.
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PMID:Possible site of action of 5-hydroperoxyeicosatetraenoic acid derived from arachidonic acid in ACTH-stimulated steroidogenesis in rat adrenal glands. 215 71

Short term regulation of hepatic cholesterol ester hydrolase by reversible phosphorylation is described. Two different kinase systems seem to be involved in this regulation. The addition of ATP, cyclic AMP and Mg2+ to rat liver 104,000 X g supernatant (S104) produced a 100-140% increase in cholesterol ester hydrolase activity. This stimulation was abolished when protein kinase inhibitor was added prior to the addition of ATP, cyclic AMP and Mg2+. Cholesterol ester hydrolase activity was also stimulated when calcium ions, phosphatidylserine, and diolein were added to S104 along with ATP and Mg2+. Diolein in this reaction could be substituted by phorbol 12-myristate 13-acetate. Preincubation of S104 with alkaline phosphatase resulted in a deactivation of cholesterol ester hydrolase. The addition of increasing concentrations of Mg2+ to S104 produced increasing inhibition of cholesterol ester hydrolase activity, and this effect was blocked by NaF. It is suggested that rat liver cholesterol ester hydrolase is activated by cyclic AMP dependent protein kinase and protein kinase C. Deactivation is accomplished by dephosphorylation catalyzed by a phosphoprotein phosphatase, dependent on Mg2+.
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PMID:Activation of rat liver cholesterol ester hydrolase by cAMP-dependent protein kinase and protein kinase C. 255 47

The activity and steroidogenic action of protein kinase C were evaluated in small and large steroidogenic ovine luteal cells. Protein kinase C activity (per mg protein) was threefold greater in large than in small luteal cells, whereas protein kinase A activity was similar in the two cell types. Phorbol 12-myristate 13-acetate (PMA) activated protein kinase C in luteal cells as demonstrated by membrane association of 91% of available protein kinase C within 15 min of PMA treatment. Longer treatments with PMA produced cells with low protein kinase C activity (protein kinase C-deficient cells) but did not affect cellular viability or protein kinase A activity. Activation of protein kinase C caused an acute, dose-dependent inhibition of progesterone production in unstimulated large and luteinizing hormone (LH)-stimulated small luteal cells. This inhibition by PMA appeared to be specific for protein kinase C since it was greatly attenuated in protein kinase C-deficient cells and since an inactive phorbol ester, 4 alpha-phorbol, had no effect on luteal progesterone production. The inhibitory locus of protein kinase C action in small luteal cells appeared to be distal to the adenylate cyclase enzyme because progesterone production was inhibited similarly in cells stimulated with LH, forskolin, or dibutyryl cyclic adenosine 3',5'-monophosphate. Cholesterol side-chain cleavage activity, as measured by metabolism of 25-hydroxycholesterol, was inhibited by PMA in large, but not in small, luteal cells. These data indicate that activation of protein kinase C specifically inhibits progesterone production in both large and small ovine luteal cells, although the intracellular mechanisms invoked appear to differ in the two cell types.
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PMID:Regulation of the corpus luteum by protein kinase C. I. Phosphorylation activity and steroidogenic action in large and small ovine luteal cells. 277 13

The regulatory role of cAMP-dependent protein kinase in steroidogenesis was examined in luteal cell mitochondria prepared from heavily luteinized prepubertal rat ovaries. The cAMP-dependent protein kinase, localized in luteal mitochondria, comprised 5.5% of the total cellular protein kinase activity (cAMP-dependent). Intact mitochondria supported by a suitable electron-donor substrate and inhibited by isoxazole converted cholesterol to a single steroid product, pregnenolone. Neither (Bu)2 cAMP nor a crude preparation of cytosolic protein kinase stimulated pregnenolone production from cholesterol when added to intact luteal cell mitochondria; however, mitochondria treated with 10 mM CaCl2 became responsive to both (Bu)2 cAMP and protein kinase by showing increased pregnenolone production. Likewise, the addition of cytosol protein kinase to incubations of cholesterol and crude cholesterol sidechain cleavage enzyme (cytochrome P-450cscc) isolated from luteal mitochondria, also stimulated pregnenolone production. Cholesterol-poor mitochondria, depleted of endogenous sterol by prolonged preincubation, when subsequently incubated with Ca+2 plus (Bu)2 cAMP and protein kinase showed significantly increased pregnenolone production. Conversely, mitochondria with greatly increased intramitochondrial cholesterol after preincubation with 200 microM cholesterol and a cytochrome P-450cscc inhibitor (aminoglutethimide) synthesized pregnenolone in significantly higher amounts than either normal or cholesterol-poor mitochondria after removal of the aminoglutethimide block. However, addition of (Bu)2cAMP or protein kinase to Ca+2-treated cholesterol-rich mitochondria failed to additionally stimulate pregnenolone synthesis. We conclude from these observations that the mitochondrial membrane normally excludes protein kinase and (Bu)2cAMP from any stimulatory action on cholesterol side-chain cleavage. Disruption of the mitochondrial membrane by high Ca+2 concentrations eliminates this barrier and permits (Bu)2cAMP and protein kinase stimulation of the CSCC enzyme system. The mechanism of stimulation is not clear. It could involve direct action on the CSCC enzyme. Alternatively, an increase in either intramitochondrial transport or binding of cholesterol substrate to the CSCC enzyme could be facilitated by protein kinase action. Direct stimulation of the enzyme by protein kinase seems less likely, since increased enzyme activity was not observed in the presence of high concentrations of intramitochondrial cholesterol substrate.
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PMID:Protein kinase stimulation of steroidogenesis in rat luteal cell mitochondria. 298 20

Cholesterol 7 alpha-hydroxylase activity was completely inhibited by incubation with alkaline phosphatase in a reconstituted enzyme system containing a cytochrome P-450, NADPH-cytochrome P-450 reductase and phospholipid. On the other hand, cAMP-dependent protein kinase stimulated cholesterol 7 alpha-hydroxylase activity by 2.5-fold. The modulation of cholesterol 7 alpha-hydroxylase activity was dependent on the amount of phosphatase or kinase added. The phosphatase inhibited enzyme activity was partially reversed by the treatment with protein kinase. These experiments indicate that the reconstituted cholesterol 7 alpha-hydroxylase activity is reversibly regulated by phosphorylation/dephosphorylation mechanism.
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PMID:Modulation of reconstituted cholesterol 7 alpha-hydroxylase by phosphatase and protein kinase. 308 Sep 95


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