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)

The mitochondria, the microsomes and the cytosol have been described as possible sites of cAMP-dependent phosphorylation. However, there has been no direct demonstration of a cAMP-dependent kinase associated with the activation of the side-chain cleavage of cholesterol. We have investigated the site of action of the cAMP-dependent kinase using a sensitive cell-free assay. Cytosol derived from cells stimulated with ACTH or cAMP was capable of increasing progesterone synthesis in isolated mitochondria when combined with the microsomal fraction. Cytosol derived from cyclase or kinase of negative mutant cells did not. Cyclic AMP and cAMP-dependent protein kinase stimulated in vitro a cytosol derived from unstimulated adrenal cells. This cytosol was capable of stimulating progesterone synthesis in isolated mitochondria. Inhibitor of cAMP-dependent protein kinase abolished the effect of the cAMP. ACTH stimulation of cytosol factors is a rapid process observable with a half maximal stimulation at about 3 pM ACTH. The effect was also abolished by inhibitor of arachidonic acid release. The function of cytosolic phosphorylation is still unclear. The effect of inhibitors of arachidonic acid release, and the necessity for the microsomal compartment in order to stimulate mitochondrial steroidogenesis, suggest that the factor in the cytosol may play a role in arachidonic acid release.
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PMID:The cytosol as site of phosphorylation of the cyclic AMP-dependent protein kinase in adrenal steroidogenesis. 166 Nov 27

The effect of CPT-cAMP and okadaic acid on phosphatidylcholine catabolism in suspension cultures of choline-deficient rat hepatocytes was investigated. Choline-deficient hepatocytes were pulse-labeled for 30 min with [methyl-3H]choline and subsequently chased for up to 60 min with choline in the absence or presence of 0.5 mM CPT-cAMP or 0.5 microM okadaic acid. Radioactivity in phosphatidylcholine and lysophosphatidylcholine were unchanged during the chase. However, the radioactivity incorporated into glycerophosphocholine was significantly increased (P less than 0.05) 59 and 77% after 60 min of chase in hepatocytes incubated with either okadaic acid or CPT-cAMP, respectively. Incubation of choline-deficient hepatocytes with both okadaic acid and CPT-cAMP produced an additive effect on radioactivity incorporated ino glycerophosphocholine. Crude mitochondrial, microsomal, and cytosolic phospholipaselysophospholipase activities, assayed in the presence of exogenously labeled phosphatidylcholine, were unchanged in both CPT-cAMP and okadaic acid treated hepatocytes compared with control. Phospholipase-lysophospholipase activity, assayed with endogenously labeled phosphatidylcholine, was increased 28 and 47% (P less than 0.05) in the crude mitochondrial fraction of hepatocytes treated with either okadaic acid or CPT-cAMP, respectively, compared with the control. Incubation of choline-deficient hepatocytes, labeled with L-[methyl-3H]methionine, with CPT-cAMP or okadaic acid caused a 31 and 20% increase (P less than 0.05) in the radioactivity incorporated into glycerophosphocholine, respectively, compared with the control. We postulate that phosphatidylcholine catabolism in choline-deficient hepatocytes may be regulated by a phosphorylation-dephosphorylation mechanism mediated through cAMP-dependent protein kinase and phosphoprotein phosphatase activities.
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PMID:CPT-cAMP and okadaic acid enhance phosphatidylcholine catabolism in choline-deficient rat hepatocytes. 166 52

Spontaneous S6 phosphatase activities dephosphorylating Ser(P)-235 and Ser(P)-236 of the ribosomal protein S6 were measured and compared in microsomes and cytosol of rat liver. The substrate used, small (40S) ribosomal subunits 32P-labelled in vitro by protein kinase A, contained phosphorylated S6 (mainly in the diphosphorylated form) and some minor phosphorylated species. The microsomal and cytosolic S6 phosphatase activities displayed a number of distinct properties. The microsomal activity, representing ca 20% of the S6 phosphatase activity in the post-mitochondrial supernatant, was mainly due to a type-1 phosphatase and dephosphorylated only S6. The remaining post-mitochondrial S6 phosphatase activity, which was fully recovered in the cytosol, and appeared to result from a combination of type-1 (43%) and type 2 (57%) phosphatases, acted on S6 as well as on the minor phosphorylated species. The microsomal activity was 50% inhibited by MgCl2 (10 mM) and was stimulated at least 4.3 fold by MnCl2 (1 mM), while the cytosolic activity was inhibited only 18% by Mg2+ (10 mM) and was increased 2.2 fold by Mn2+ (1 mM). The microsomal activity was increased 10% (P less than 0.06) by lower doses of insulin (25 U/Kg) and 14% (P less than 0.05) by vanadate, but was not significantly (P greater than 0.10) affected by larger doses of insulin (100 U/kg), hepatectomy or cycloheximide. By comparison the cytosolic S6 phosphatase activity was unresponsive to insulin and vanadate, but was decreased 14% and 17% (P less than 0.05) by hepatectomy and cycloheximide.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:A comparative study of microsomal and cytosolic S6 phosphatase activities in rat liver. 166 99

Several studies have suggested that vitamin D plays a role in cardiovascular function. It has been recently shown that in vitro treatment of vitamin D-deficient chick cardiac muscle with physiological concentrations of 1,25-dihydroxy-vitamin D3 (1,25(OH)2D3) induces a rapid (1-10 min) increase of tissue 45Ca uptake which can be suppressed by Ca channel blockers. The hormone simultaneously stimulated heart microsomal membrane protein phosphorylation. Experiments were performed to investigate the existence of a relationship between these changes and to obtain information about the mechanism involved in 1,25(OH)2D3-induced modifications in cardiac protein phosphorylation. Dibutyryl cyclic AMP (10 microM) and forskolin (10 microM), known activators of the cAMP pathway, produced time courses of changes in 45Ca uptake by chick heart tissue similar to 1,25(OH)2D3 (10(-10) M). Analogously to the hormone, the effects of both compounds were abolished by nifedipine (30 microM) and verapamil (10 microM). In agreement with these observations, 1,25(OH)2D3 significantly increased (34-70%) heart muscle cAMP levels within 1-10 min of treatment. In addition, 1,25(OH)2D3 and forskolin caused similar changes in cardiac microsomal membrane protein phosphorylation (e.g. stimulation in 43 kDa and 55 kDa proteins). These changes were also evidenced by direct exposure of isolated heart microsomes to 1,25(OH)2D3, suggesting a direct membrane action of the hormone. The fast effects of 1,25(OH)2D3 on dihydropyridine-sensitive cardiac muscle Ca uptake could be reproduced in primary-cultured myocytes isolated from chick embryonic heart. Furthermore, the effects of the hormone could be suppressed by a specific protein kinase A inhibitor. These results suggest that 1,25(OH)2D3 affects heart cell calcium metabolism through regulation of Ca channel activity mediated by the cAMP pathway.
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PMID:Evidence on the participation of the 3',5'-cyclic AMP pathway in the non-genomic action of 1,25-dihydroxy-vitamin D3 in cardiac muscle. 166 53

Several rat liver HMG-CoA-reductase (HMG-CoA-Rd) phosphatase activities have been shown to be associated with the endoplasmic reticulum. These activities were not due to glycogen contamination, as judged not only from different patterns of solubilization of the microsomal membranes and the glycogen pellet but also by differential centrifugation behavior under standard conditions and in a sucrose gradient. We present evidence that at least three forms of protein phosphatase are associated with microsomal membranes: a polycation-stimulated type 2A phosphatase, a type 2C phosphatase, and a non-2A, non-2B, non-2C phosphatase. This last HMG-CoA-Rd phosphatase activity corresponding to an 85 kDa protein was partially purified by several chromatographic procedures. The IC50 value for the inhibition of the HMG-CoA-Rd phosphatase by I-2 was 10-fold higher than for the inhibition of the purified type 1 catalytic subunit from rabbit skeletal muscle. The microsomal HMG-CoA-Rd phosphatase activity was slightly affected by the protein inhibitor that inhibits type 2A activity when HMG-CoA reductase is the substrate. The HMG-CoA-Rd phosphatase activity is spontaneously active and it is not reactivated in the presence of Mg2+ or polycations. The holoenzyme does not contain the inhibitor-2 and it is not reactivated by incubation with ATP and glycogen synthase kinase-3. Proteolytic treatment of the enzyme yielded a polypeptide fragment of low Mr (37 kDa) with reduced activity. A model of holoenzymatic HMG-CoA-Rd phosphatase and its relation to the microsomal membranes is presented.
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PMID:Isolation and partial characterization of a protein with HMG-CoA reductase phosphatase activity associated with rat liver microsomal membranes. 175 9

The activity catalyzed by N-myristoyl transferase (NMT) is described for the first time in microsome-rich fractions from the murine leukemia cell line L1210, rat brain and mouse liver as biological sources. The enzyme from each source can accommodate various types of proteins (protein kinase A, virus structural gag protein or pp60src) as modelized by the use of their N-terminal derived peptides (GNAAAARR, GQTVTTPL and GSSKSKPKDP, respectively). As for some other types of membrane-bound enzymes, NMT activity can be enhanced by pretreatment with various types of detergents, amongst which Triton 770 and deoxycholate were the most potent. Further experiments on the L1210 microsome-rich fractions demonstrate that these two detergents were able to solubilize the microsomal enzyme, without modifying its substrate specificity. Finally, three compounds described in the literature to be inhibitors of NMT activity from other sources were tested for L1210 microsome-associated activity. None of them show any significant potency in inhibiting this activity. A new compound, myristoylphenylalanine, shows a slightly better inhibitory effect on the L1210 microsomal activity than the reference compounds with a median inhibitory concentration (IC50) of 0.2 mM.
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PMID:N-myristoyl-transferase activity in cancer cells. Solubilization, specificity and enzymatic inhibition of a N-myristoyl transferase from L1210 microsomes. 191 71

Osmotic water permeability (Pf) in toad bladder is regulated by the vasopressin (VP)-dependent movement of vesicles containing water channels between the cytoplasm and apical membrane of granular cells. Apical endosomes formed in the presence of serosal VP have the highest Pf of any biological or artificial membrane (Shi and Verkman. 1989. J. Gen. Physiol. 94:1101-1115). We examine here: (a) the influence of protein kinase A and C effectors on transepithelial Pf (Pfte) in intact bladders and on the number and Pf of labeled endosomes, and (b) whether endosome Pf can be modified physically or biochemically. In paired hemibladder studies, Pfte induced by maximal serosal VP (50 mU/ml, 0.03 cm/s) was not different than that induced by 8-Br-cAMP (1 mM), forskolin (50 microM), VP + 8-Br-cAMP, or VP + forskolin. Pf was measured in endosomes labeled in intact bladders with carboxyfluorescein by a stopped-flow, fluorescence-quenching assay using an isolated microsomal suspension; the number and Pf (0.08-0.11 cm/s, 18 degrees C) of labeled endosomes was not different in bladders treated with VP, forskolin, and 8-Br-cAMP. Protein kinase C activation by 1 microM mucosal phorbol myristate acetate (PMA) induced submaximal bladder Pfte (0.015 cm/s) and endosome Pf (0.022 cm/s) in the absence of VP, but had little effect on maximal Pfte and endosome Pf induced by VP. However, PMA increased by threefold the number of apical endosomes with high Pf formed in response to serosal VP. Pf of endosomes containing the VP-sensitive water channel decreased fourfold by increasing membrane fluidity with hexanol or chloroform (0-75 mM); Pf of phosphatidylcholine liposomes (0.002 cm/s) increased 2.5-fold under the same conditions. Endosome Pf was mildly pH dependent, strongly inhibited by HgCl2, but not significantly altered by GTP gamma S, Ca, ATP + protein kinase A, and phosphatase action. We conclude that: (a) water channels cycled in endocytic vesicles are functional and not subject to physiological regulation, (b) VP and forskolin do not have cAMP-independent cellular actions, (c) activation of protein kinase C stimulates trafficking of water channels, but does not increase the number of apical membrane water channels induced by maximal VP, and (d) water channel function is sensitive to membrane fluidity. By using VP and PMA together, large quantities of endosomes containing the VP-sensitive water channel are labeled with fluid-phase endocytic markers.
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PMID:Regulation of the formation and water permeability of endosomes from toad bladder granular cells. 197 9

Estradiol-17 beta (E2) predetermined protein phosphorylation systems have been identified recently in midpregnant rat corpus luteum. Major type protein kinase activities in these systems were explored here using as probes protein kinase inhibitors. Luteal nuclear, mitochondrial, microsomal and cytosolic fractions were obtained from rats hysterectomized and hypophysectomized on day 12 of pregnancy and then treated for 72 h with E2. In vitro phosphate transfer from [gamma-32P]ATP was monitored by SDS-PAGE followed by autoradiography. Polymyxin B (PMB), 1-200 microM, a PKC inhibitor, completely blocked, in a dose dependent manner, the Ca2+ phospholipid (PL) stimulated radiolabeling of nuclear fraction Mr 79,000 substrate(s) as expected. Similarly, the calmodulin (CaM) antagonist compound 48/80, 1-20 micrograms/ml, inhibited the Ca2+/CaM-dependent phosphorylation of the microsomal fraction Mr 60,000 and Mr 56,000 proteins. The Ca2+ PL-enhanced labeling of mitochondrial fraction Mr 76,000 substrate(s) was only partially susceptible to inhibition by PMB or compound 48/80. Studies of microsomal fraction phosphoprotein bands not stimulated by added cofactors indicated that the radiolabeling of Mr 75,000 protein(s) was partially blocked by compound 48/80 but not by PMB. Phosphate transfer to Mr 41,000 protein(s) was inhibited by the cAMP-dependent kinase protein inhibitor (PKI), while the phosphorylation of Mr 31,000 protein(s) was refractory to all inhibitors employed here. Surprisingly, regardless of hormonal pretreatment, PMB and compound 48/80 activated in every subcellular fraction the cofactor independent appearance of at least one phosphoprotein band, between Mr 87,000-99,000. This novel observation should be instrumental in understanding the actions of these compounds towards living cells.
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PMID:Inhibition and stimulation of rat luteal protein phosphorylation by protein kinase effectors. 204 6

The insulin-sensitive cAMP phosphodiesterase (PDE) in the microsomal fraction (Fraction P-2) from basal (-insulin) rat adipocytes was stimulated upon incubation with 2 mM ATP plus the soluble fraction from insulin-treated adipocytes (Fraction S-2+). Fraction S-2+ was prepared in the presence of p-nitrophenylphosphate, sodium vanadate, and EGTA. The ATP-dependent stimulation of PDE was routinely 60-70%. The unknown factor in Fraction S-2 was water-soluble, heat-labile, excluded by Sephadex G-50, mostly retained by Sephadex G-100, and not inhibited with 1 microgram/ml heparin, 3 mM CaCl2, or 30 mM NaF. The soluble factor may be a mediator of insulin action on PDE, possibly a protein kinase.
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PMID:Stimulation of the insulin-sensitive cAMP phosphodiesterase by an ATP-dependent soluble factor from insulin-treated rat adipocytes. 215 11

Treatment of PC12 cells with nerve growth factor (NGF) resulted in the rapid, but transient, activation of a protein kinase which specifically phosphorylated an endogenous 250-kDa cytoskeletal protein (pp250). We report that the microtubule-associated protein, MAP2, is an alternative substrate for the NGF-activated kinase. NGF treatment maximally activated the kinase within 5 min; however, the activity declined with longer exposure to NGF. The enzyme was localized predominantly in microsomal and soluble fractions and phosphorylated MAP2 on serine and threonine residues. The soluble enzyme was fractionated by DEAE chromatography and gel filtration and had an apparent Mr of 45,000. The enzyme was purified to near homogeneity by chromatofocussing and had a pI of 4.9. Kinetic analysis revealed that NGF treatment caused a sevenfold increase in Vmax for MAP2. The Km with respect to the MAP2 substrate was approximately 50 nM and was not altered by NGF treatment. A novel feature of the NGF-stimulated enzyme was its sharp dependence on Mn2+ concentration. The active enzyme is likely to be phosphorylated, because inclusion of phosphatase inhibitors was required for recovery of optimal activity and the activity was lost on treatment of the enzyme with alkaline phosphatase. Histones, tubulin, casein, bovine serum albumin, and the ribosomal subunit protein S-6 were not phosphorylated by this enzyme. The NGF-stimulated kinase was distinct from A kinase, C kinase, or other NGF-stimulated kinases. The rapid and transient activation of the protein kinase upon NGF treatment suggests that the enzyme may play a role in signal transduction in PC12 cells.
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PMID:Characterization of a nerve growth factor-stimulated protein kinase in PC12 cells which phosphorylates microtubule-associated protein 2 and pp250. 216 72


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