EC:2.7.11.1 - FACTA Search

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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)

Developmental increase of tryptophan oxygenase (L-tryptophan: oxygen 2, 3-oxidoreductase (decyclizing), EC 1.13.11.11) was studied using hepatocytes of neonatal rats in primary culture. Hepatocytes from rats of 2-30-days-old were isolated and cultured for 2 days. In cultured hepatocytes of 2-day-old rats, tryptophan (2.5 mM), dexamethasone (1 x 10(-5) M) and glucagon (1 x 10(-7) M) did not cause the appearance of tryptophan oxygenase. But the enzyme activity became detectable, when hepatocytes from 5-day-old rats were incubated with tryptophan, the oxygenase could be induced precociously by dexamethasone, but by glucagon. The effect of glucagon was first seen 2 weeks after birth. However, in hepatocytes of 9-day-old rats glucagon stimulated formation of cyclic AMP and protein kinase activity (EC 2.7.1.37) and also induced tyrosine aminotransferase (EC 2.6.1.5). When hepatocytes of 9-day-old rats were cultured for 4 days, their tryptophan oxygenase became inducible by glucagon. Insulin almost completely inhibited precocious appearance of the enzyme activity evoked by tryptophan plus dexamethasone in hepatocytes of 9-day-old rats. These studies suggest that the appearance of tryptophan oxygenase in rat liver during development is due to first the onset of gene coding for tryptophan oxygenase and then stimulation by the sequential actions of glucocorticoid and glucagon.
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PMID:Hormonal control of the development of tryptophan oxygenase in primary cultures of young rat hepatocytes. 730 79

Reestablishment of vascular homeostasis following ex vivo preservation is a critical determinant of successful organ transplantation. Because the nitric oxide (NO) pathway modulates pulmonary vascular tone and leukocyte/endothelial interactions, we hypothesized that reactive oxygen intermediates would lead to decreased NO (and hence cGMP) levels following pulmonary reperfusion, leading to increased pulmonary vascular resistance and leukostasis. Using an orthotopic rat model of lung transplantation, a porphyrinic microsensor was used to make direct in vivo measurements of pulmonary NO. NO levels measured at the surface of the transplanted lung plummeted immediately upon reperfusion, with levels moderately increased by topical application of superoxide dismutase. Because cGMP levels declined in preserved lungs after reperfusion, this led us to buttress the NO pathway by adding a membrane-permeant cGMP analog to the preservation solution. Compared with grafts stored in its absence, grafts stored with supplemental 8-Br-cGMP and evaluated 30 min after reperfusion demonstrated lower pulmonary vascular resistances with increased graft blood flow, improved arterial oxygenation, decreased neutrophil infiltration, and improved recipient survival. These beneficial effects were dose dependent, mimicked by the type V phosphodiesterase inhibitor 2-o-propoxyphenyl-8-azapurin-6-one, and inhibited by a cGMP-dependent protein kinase antagonist, the R isomer of 8-(4-chlorophenylthio)guanosine 3',5'-cyclic monophosphorothioate. Augmenting the NO pathway at the level of cGMP improves graft function and recipient survival following lung transplantation.
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PMID:The nitric oxide/cyclic GMP pathway in organ transplantation: critical role in successful lung preservation. 752 50

Here we report that the interferon (IFN)-induced proteins, 2'-5'-oligoadenylate synthetase (OAS) and IFN-induced protein kinase (PKI), appearance and activity precede that of hemoglobin (Hb) in the differentiation process of Friend erythroleukemic cells (FLC). Since our results are correlative, we assume that OAS and PKI are activated, and act at an early stage in the differentiation process, enabling the late onset of Hb synthesis. It is, thus, suggested that red blood cells harboring specific differentiating genes may be used as more efficient carriers of oxygen-binding molecules.
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PMID:Hemoglobin is a late event in the differentiation of Friend erythroleukemic cells in-vitro. I. The role of interferon-induced proteins. 752 24

Hyperoxia causes a reproducible pattern of lung injury and repair in rodents, in which proliferation of alveolar epithelial cells (AEC) and fibroblasts is observed during recovery. We postulated that if quiescent cells are stimulated to reenter the cell cycle, then cyclin expression and cyclin-dependent protein kinase activity would be reactivated in AEC during the repair process after hyperoxic lung injury. To test this hypothesis, we exposed adult rats to short-term hyperoxia, followed by recovery for various times in room air. Cellular proliferation in vivo was confirmed by 1) flow cytometric analysis of DNA content (FACS) of freshly isolated AEC and 2) immunohistochemistry of proliferating cell nuclear antigen (PCNA) and bromodeoxyuridine (BrdU) incorporation into DNA on lung sections. The percentage of freshly isolated AEC in S phase and G2/M phase on FACS analysis increased twofold to a maximum of 16.5%, after 48 h in 100% oxygen and 48 h recovery in air. Cyclins A and D and p34cdc2 protein expression were also increased during the recovery period; while p33cdk2 and p34cdk4 increased only slightly. p34cdc2 histone H1 kinase activity, both in whole lung and in AEC, decreased initially after 48 h in oxygen. However, a marked increase in p34cdc2 kinase activity was observed at 48 h recovery in whole lung and returned to baseline by 72 h. In isolated and cultured AEC, p34cdc2 kinase activity was maximal at 24 h of recovery in air. We conclude that cyclins A and D and p34cdc2 protein expression and p34cdc2 kinase activity are increased in vivo during recovery from hyperoxic lung injury in both adult rat lungs and in AEC isolated from these lungs. We speculate that the induction of cyclin-dependent protein kinase activity is a key event in mediating the proliferative cellular repair response to lung injury.
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PMID:Induction of A- and D-type cyclins and cdc2 kinase activity during recovery from short-term hyperoxic lung injury. 753 63

Respiratory adaptation in Saccharomyces cerevisiae is a complex genetic program that ensures ATP synthesis in a glucose-depleted environment. ATP is generated during respiration by the mitochondrial electron transport chain which is induced by respiratory adaptation. We have studied the terminal enzyme in mitochondrial electron transport, cytochrome c oxidase, from S. cerevisiae. Because subunits in this multisubunit enzyme are coordinately regulated, we have focused upon the well characterized subunit VI gene, COX6. In yeast, COX6 transcription is regulated by several factors thought to mediate respiratory adaptation including growth phase induction, oxygen dependence, and glucose repression. In the present study, we found that in addition to these known regulators, COX6 expression also depends upon pH and the cAMP-dependent protein kinase which may comprise additional factors signaling respiratory adaptation.
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PMID:pH and the cAMP-dependent protein kinase mediate growth phase induction of the cytochrome c oxidase subunit VI gene, COX6, in Saccharomyces cerevisiae. 757 9

Heme-hemopexin or cobalt protoporphyrin (CoPP)-hemopexin (a model ligand for hemopexin receptor occupancy) is shown to increase transcription of the metallothionein-1 (MT-1) gene by activation of a signaling pathway. Promoter deletion analysis followed by transient transfection assays show that 110 base pairs (-153 to -43) of 5'-flanking region of the murine MT-1 promoter are sufficient for increasing transcription in response to heme-hemopexin or to CoPP-hemopexin in mouse hepatoma cells. The protein kinase C inhibitor, 1-(5-isoquinolinesulfonyl)-2-methylpiperazine dihydrochloride (H7), prevented the increase in MT-1 transcription by heme-hemopexin, CoPP-hemopexin, or phorbol 12-myristate 13-acetate, but the protein kinase A inhibitor, HA1004, was without effect. N-Acetylcysteine (NAC) and glutathione, as well as superoxide dismutase and catalase, inhibited both the increase in endogenous MT-1 mRNA and the activation of reporter gene activity by heme-hemopexin, CoPP-hemopexin, and phorbol 12-myristate 13-acetate. In sum, these data suggest that reactive oxygen intermediates are generated by heme-hemopexin via events associated with receptor binding, including protein kinase C activation. Induction of heme oxygenase-1 expression, in contrast to MT-1, is significantly less sensitive to NAC. Deletion and mutation analyses of the MT-1 proximal promoter revealed that the sequence 5'-GTGACTATGC-3' (from -98 to -89 base pairs) is, in part, responsible for the hemopexin-mediated regulation of MT-1 which is inhibited by H7. Regulation via this element is also induced by H2O2 showing that it is an antioxidant response element. Heme itself acts via more distal elements on the MT-1 promoter. In contrast to NAC and glutathione, diethyl dithiocarbamate and pyrrolidine dithiocarbamate, which inactivate reactive oxygen intermediates and chelate Zn(II), synergistically augment the induction of MT-1 mRNA levels and reporter gene activity in response to heme-hemopexin via the antioxidant response element by both metal-responsive element-dependent and -independent mechanisms.
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PMID:Mechanism of metallothionein gene regulation by heme-hemopexin. Roles of protein kinase C, reactive oxygen species, and cis-acting elements. 759 95

The rat/mouse T-cell hybridoma PC60 was transfected either with hTNF-R55 cDNA, hTNF-R75 cDNA, or both. Receptor-specific stimulation was achieved using agonistic monoclonal antibodies or receptor-specific muteins of hTNF. Either hTNF-R55 or hTNF-R75 could mediate the activation of NF-kappa B and the induction of GM-CSF, IL-6, and IFN-gamma. But only in cells carrying both hTNF-R55 and hTNF-R75, was TNF able to induce apoptosis. This apoptosis could be inhibited almost completely by cotransfection with human bcl-2 cDNA. Functional cooperation was observed between liganded and unliganded receptors for the induction of apoptosis. In vitro protein kinase activity was detected only in TNF-R75 immunoprecipitates from cells in which the receptor was signaling. Direct evidence was obtained for reactive oxygen intermediates of mitochondrial origin responsible for TNF-induced cytotoxicity in L929 cells.
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PMID:Functional requirement of the two TNF receptors for induction of apoptosis in PC60 cells and the role of mitochondria in TNF-induced cytotoxicity. 762 61

Adrenaline has recently been shown to stimulate both glucose metabolism and H2O2 release by macrophages but the activity of the key pentose phosphate pathway enzyme, glucose-6-phosphate dehydrogenase (which generates the NADPH crucial for the reduction of molecular oxygen), was reduced under these conditions [Costa Rosa, Safi, Cury and Curi (1992) Biochem. Pharmacol. 44, 2235-2241]. We report here that adrenaline activates another NADPH-producing enzyme, NADP(+)-dependent 'malic' enzyme, while also inhibiting glucose-6-phosphate dehydrogenase, via cyclic AMP-dependent protein kinase (PKA) activation. Regulation of glucose-6-phosphate dehydrogenase activity by PKA has not been reported elsewhere. The sparing of some glucose from pentose phosphate pathway consumption may be important in the provision of glycerol 3-phosphate which in the macrophage may be required for new phospholipid synthesis. Glutamine oxidation was also stimulated by adrenaline thus providing increased substrate (malate) for NADP(+)-dependent 'malic' enzyme and therefore shifting some of the burden of NADPH production from glucose to glutamine metabolism. We also report a novel synergistic effect of adrenaline and some bacterial products and/or gamma-interferon in stimulating secretory and metabolic pathways in macrophages which may be a part of a larger network of signals that lead to enhanced macrophage activity.
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PMID:Effect of adrenaline and phorbol myristate acetate or bacterial lipopolysaccharide on stimulation of pathways of macrophage glucose, glutamine and O2 metabolism. Evidence for cyclic AMP-dependent protein kinase mediated inhibition of glucose-6-phosphate dehydrogenase and activation of NADP+-dependent 'malic' enzyme. 765 15

Angiotensin II (Ang-II) receptor engagement activates many immediate early response genes in both vascular smooth muscle cells and cardiomyocytes whether a hyperplastic or hypertrophic response is taking place. Although the signaling pathways stimulated by Ang-II in different cell lines have been widely characterized, the correlation between the generation of different second messengers and specific physiological responses remains relatively unexplored. In this study, we report how in both C2C12 quiescent myoblasts and differentiated myotubes Ang-II significantly stimulates AP1-driven transcription and c-Jun.c-Fos heterodimer DNA binding activity. Using a set of different protein kinase inhibitors, we could demonstrate that Ang-II-induced increase in AP1 binding is not mediated by the cAMP-dependent pathway and that both protein kinase C and tyrosine kinases are involved. The observation that in quiescent myoblasts Ang-II increase of AP1 binding and induction of DNA synthesis and, in differentiated myotubes, Ang-II stimulation of protein synthesis are abolished by the cysteine-derivative and glutathione precursor N-acetyl-L-cysteine strongly suggests a role for reactive oxygen intermediates in the intracellular transduction of Ang-II signals for immediate early gene induction, cell proliferation, and hypertrophic responses.
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PMID:Reactive oxygen intermediates mediate angiotensin II-induced c-Jun.c-Fos heterodimer DNA binding activity and proliferative hypertrophic responses in myogenic cells. 767 90

1. Cells from the ventricles of newborn rats were cultured for 8 days in flasks attached to a rocker apparatus to ensure an adequate oxygen supply. 2. The rocked cultures, which had previously been found to be low in lactate and subsensitive to the positive chronotropic action of the beta-adrenergic agonist isoprenaline (ISO; EC50 of (+/-)-ISO around 7 x 10(-7) M), became resensitized and even highly supersensitive to the catecholamine upon treatment with 3 mM L(+)-lactate or 1 mM pyruvate. 3. The resulting concentration-response curves were anomalous in that they extended over 8 log units, with a threshold at about 10(-13) M, but with little or no change in the height and the position of the maximum (at 10(-5) M). The EC50 values and 95% confidence intervals were 2.4 (1.9-3.0) and 5.4 (4.9-6.0) x 10(-11) M, respectively, for the lactate- and pyruvate-induced components of the chronotropic response to (+/-)-ISO. 4. The supersensitive portion of the ISO concentration-response curve was abolished by (-)-propranolol (10(-6) M), indicating that it was due to beta-adrenoceptor stimulation. 5. The cultured heart cells had to be incubated with L(+)-lactate or pyruvate for a minimum of 45 min before an increase in sensitivity to ISO became apparent. This latency was not due to a requirement for protein synthesis. 6. The adenosine-3',5'-monophosphate (cAMP) response to ISO was not noticeably altered by lactate, but (+/-)-ISO, which at 10(-8) M had no effect on the activation state of cAMP-dependent protein kinase (PKA), caused a significant increase in the activity of the enzyme following a 2-h exposure of the cells to 3 mM L(+)-lactate. 7. alpha-cyanocinnamate, an inhibitor of transmembrane transport of lactate and pyruvate, severely inhibited the utilization of L-[U-14C] lactate by the cultured cells at a concentration (5 microM) that eliminated the lactate-evoked potentiation of the chronotropic action of ISO without significantly affecting its unpotentiated action. 8. The beat-accelerating action of the phosphodiesterase inhibitor 3-isobutyl-l-methylxanthine (IBMX) and the lipophilic N6,2'-O-dibutyryl derivative of cAMP (dbcAMP), both of which are capable of elevating myocardial cAMP levels, was not potentiated by 1 mM pyruvate. 9. The question is raised, whether accumulation of lactate, a biochemical hallmark of anaerobiosis, might be a factor in some of the catecholamine-triggered events occurring in acute myocardial ischaemia and infarction.
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PMID:Supersensitivity to beta-adrenoceptor stimulation evoked in cultured neonatal rat heart myocytes by L(+)-lactate and pyruvate. 768 42

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