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)

Cyclic AMP-dependent protein kinase isozymes of pig and human skin (epidermis) were separated by DEAE-cellulose column chromatography after micromodification for small biopsy samples. Clear-cut separations of type I and type II isozymes, which were of about equal amounts, could be obtained only when the ischemia effect was avoided by in vivo freezing of skin and homogenization for less than 10 s. Intradermal injections of epinephrine caused dose-dependent activation of type I isozyme, but not of type II. Injections of other skin adenylate cyclase stimulators such as histamine, adenosine, and prostaglandin E2 elevated the local cyclic AMP levels to not more than 5 pmol/mg protein and also stimulated only the type I isozyme. Incubation of keratome-sliced pig skin under various conditions caused both activation by dissociation and inactivation by reassociation of the subunits, which appeared to be dependent on the cyclic AMP content. Epinephrine added to the incubation medium led to complete activation of both type I and type II isozymes (the intraepidermal cyclic AMP contents ranged from 20-50 pmol/mg protein). The isozymes of normal skin and involved skin of psoriatics showed identical peaks of type I and type II isozymes of equal amounts. The data indicate that protein kinase in the involved skin is not in an activated (by cyclic AMP) state.
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PMID:Cyclic AMP-dependent protein kinase isozymes of pig skin and human skin from normal and psoriatic subjects. 629 36

Following coronary artery ligation (CAL), levels of cAMP and the activity ratio of cAMP-dependent protein kinase, of phosphorylase kinase, and of phosphorylase are significantly elevated in both ischemic and nonischemic areas of the canine left ventricle. The aerobic level of cAMP was found to be 0.4 to 0.6 pmol/mg myocardium only after a precooled clamp or a cryobiopsy device was employed to guarantee tissue freezing in situ. Maximal changes in response to ischemia are observed within 2 min in both parts of the heart. Twenty minutes after the onset of ischemia, different responses have been found in the nonischemic and ischemic tissue. Whereas the levels of cAMP and the activity ratio of protein kinase, of phosphorylase kinase, and of phosphorylase returned to aerobic values in the nonischemic area, these parameters remained elevated in the ischemic area. The changes in the levels of myocardial cAMP and in the cAMP-dependent protein kinase activity ratio following CAL could be prevented by propranolol.
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PMID:Cyclic nucleotides and changes in protein kinase activity ratio in the ischemic and nonischemic myocardium. 630 32

The effect of fatty acid and acylcarnitine on Ca2+ and Na+ transporting enzymes and carriers was studied in sealed cardiac sarcolemma vesicles of mixed polarity. Palmitoylcarnitine markedly reduced the Na+ gradient-induced Ca2+ uptake. Half-maximal reduction was obtained at 15 microM of the carnitine derivative. In a same concentration range palmitoylcarnitine caused a rapid release of accumulated Ca2+ when added to Ca2+-filled vesicles, which suggests that palmitoylcarnitine increases the permeability of the sarcolemma vesicles to Ca2+. A rapid release of Ca2+ was also observed if Ca2+ was taken up by action of the Ca2+ pump. The (Ca2+ + Mg2+)-ATPase, which most likely drives this active Ca2+ uptake, was 90% increased by 50 microM palmitoylcarnitine and evidence was presented that the acylcarnitine effect again was linked to an alteration of Ca2+ permeability of the vesicles. At the same concentration acylcarnitine was not able to unmask the latent protein kinase, so that probably the sarcolemma ATP permeability was not affected. Palmitoylcarnitine at 25 microM did not affect the ouabain-sensitive (Na+ + K+) -ATPase in native sarcolemma vesicles, however, it inhibited markedly if the enzyme was measured in SDS-treated vesicles. The effect of increased free fatty acid concentration on some of the sarcolemma transporting properties was tested by adding oleate-albumin complexes with different molar ratios to the sarcolemma vesicles. In contrast to molar ratios 1 and 5, the ratio of 7 was able to induce a rapid Ca2+ release and to inhibit (Na+ + K+)-ATPase in either native or SDS-treated vesicles markedly. 22Na release from 22Na-preloaded sarcolemma vesicles was shown to be stimulated by either palmitoylcarnitine (50 microM) or oleate-albumin complex (with a molar ratio of 7). The possible significance of the observed effects of lipid intermediates on ion permeability and (Na+ + K+)-ATPase activity in isolated sarcolemma vesicles for the derangement of cardiac cell function in ischemia is discussed.
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PMID:The effect of lipid intermediates on Ca2+ and Na+ permeability and (Na+ + K+)-ATPase of cardiac sarcolemma. A possible role in myocardial ischemia. 632 91

The role of ATP-sensitive K+ channels (KATP) in ischemia and reperfusion (I/R) was studied in isolated rat lungs. I/R produced a sixfold increase in endothelial permeability as measured by the capillary filtration coefficient. Cromakalim (10 microM) given at 46 min after reperfusion reversed the filtration coefficient increase. This effect was not blocked by either a protein kinase A inhibitor (adenosine-3',5'-cyclic monophosphothioate; 100 microM) or an adenosine antagonist [8-(p-sulfophenyl)-theophylline; 20 microM]. Cromakalim given before ischemia or at the beginning of reperfusion protected the endothelial barrier from injury. Glibenclamide (500 microM) given before the ischemic period, at the beginning of reperfusion, or 46 min after reperfusion did not alter the changes in microvascular permeability produced by I/R. Glibenclamide blocked the ability of cromakalim to reverse endothelial damage but not the ability of either isoproterenol (10 microM) or an adenosine A2-receptor agonist, CGS-21680 (300 nM). We conclude that opening of KATP channels does not produce endothelial injury in I/R. The activation of KATP channels can both protect against and reverse the endothelial damage associated with I/R. This novel mechanism(s) is independent from known pathways that employ cAMP-protein kinase system and adenosine.
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PMID:ATP-sensitive K+ channels are not involved in ischemia-reperfusion lung endothelial injury. 759 17

We examined alterations in the cyclic AMP generating system and G protein subunits in gerbil hippocampus following 10 min of transient ischemia. In hippocampal slices, basal and isoproterenol- and forskolin-stimulated cyclic AMP accumulations were markedly increased at 6 and 24 h after ischemia. Interestingly, both the inhibition of forskolin-stimulated cyclic AMP and the potentiation of beta-adrenoceptor-stimulated cyclic AMP by a gamma-aminobutyric acidB receptor agonist were attenuated at these time points. Ischemia did not affect the immunolabeling of any of the G protein alpha subunits; only that of beta subunits was significantly decreased, by 28.2%, 4 days after ischemia. In contrast, pertussis toxin-catalyzed [32P]ADP ribosylation declined progressively during the late recirculation period, reaching a significant reduction (25.4%) at 6 h after ischemia. These results suggest that ischemia affects the heterotrimeric conformation (alpha beta gamma) of Gi/Go during the recirculation period, thereby leading to increased cyclic AMP production. Because cyclic AMP-dependent protein kinase A modulates the alpha-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid-kainate receptor channels, postischemic sensitization of the cyclic AMP generating system may contribute to neuronal degeneration in the hippocampus.
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PMID:Alterations in cyclic AMP generation and G protein subunits following transient ischemia in gerbil hippocampus. 767 81

The effects of cerebral ischemia on calcium/calmodulin-dependent kinase II (CaM kinase II) were investigated using the rat four-vessel occlusion model. In agreement with previous results using rat or gerbil models of cerebral ischemia or a rabbit model of spinal cord ischemia, this report demonstrates that transient forebrain ischemia leads to a reduction in CaM kinase II activity within 5 min of occlusion onset. Loss of activity from the cytosol fractions of homogenates from the neocortex, striatum, and hippocampus correlated with a decrease in the amount of CaM kinase alpha and beta isoforms detected by immunoblotting. In contrast, there was an apparent increase in the amount of CaM kinase alpha and beta in the particulate fractions. The decrease in the amount of CaM kinase isoforms from the cytosol but not the particulate fractions was confirmed by autophosphorylation of CaM kinase II after denaturation and renaturation in situ of the blotted proteins. These results indicate that ischemia causes a rapid inhibition of CaM kinase II activity and a change in the partitioning of the enzyme between the cytosol and particulate fractions. CaM kinase II is a multifunctional protein kinase, and the loss of activity may play a critical role in initiating the changes leading to ischemia-induced cell death. To identify a structural basis for the decrease in enzyme activity, tryptic peptide maps of CaM kinase II phosphorylated in vitro were compared. Phosphopeptide maps of CaM kinase alpha from particulate fractions of control and ischemic samples revealed not only reduced incorporation of phosphate into the protein but also the absence of a limited number of peptides in the ischemic samples. This suggested that certain sites are inaccessible, possibly due to a conformational change, a covalent modification of CaM kinase II, or steric hindrance by an associated molecule. Verifying one of these possibilities should help to elucidate the mechanism of ischemia-induced modulation of CaM kinase II.
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PMID:Effect of cerebral ischemia on calcium/calmodulin-dependent protein kinase II activity and phosphorylation. 771 3

The present study examined the immunoexpression of the neuronal cytoskeletal proteins, MAP-2 and beta-tubulin within a timed series of rat fetal neocortical transplants. beta-tubulin is a major component of microtubules and MAP-2 regulates the assembly and stability of neuronal microtubules and is a major site for the phosphorylation cAMP dependent protein kinase in neurons. Both proteins are strongly expressed in the soma and dendrites of normal neurons. MAP-2 has been shown to be a sensitive marker for ischemia in neurons and is downregulated in this form of injury. Immunoexpression of both MAP-2 and beta-tubulin in grafted cortical neurons was markedly reduced when compared to age-matched or even perinatal specimens at all post-operative times. Dendritic staining was confined to random, thin processes with no laminar patterns and staining within somata was very weak. In some specimens, somatic expression was increased and dendrites were more robustly stained when a portion of the graft was juxtaposed to a fiber tract even though in other regions of the same graft there was very weak immunostaining. The present results corroborate previous studies of cortical transplants indicating an immature structure and metabolism, and it is suggested here that the primary factor is a sublethal form of ischemic injury. Another possibility for the relative paucity of cytoskeletal protein expression could be that transplanted neurons undergo a new developmental scheme (neodevelopment) that is brought about by truncated migration patterns and abnormal synaptic connections.
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PMID:Diminished expression of microtubule-associated protein (MAP-2) and beta-tubulin as a putative marker for ischemic injury in neocortical transplants. 772 37

Collateral blood vessels supplement normal coronary blood flow and coronary blood flow compromised by coronary artery disease, thereby protecting the myocardium from ischemia. Collateral vessel formation is the result of angiogenesis. Vascular endothelial growth factor (VEGF), also known as vascular permeability factor (VPF), is a secreted mitogen specific for endothelial cells and an extremely potent angiogenic factor. In the present study, VPF/VEGF mRNA and protein were demonstrated to be markedly stimulated in primary rat cardiac myocytes in vitro in response to reduction of the oxygen tension to 1% or inhibition of the electron transport chain. Four isoforms of VPF/VEGF were coordinately regulated by hypoxia, including a novel isoform not previously described. Phorbol ester and the depolarizing agent veratridine, stimulators of protein kinase C and calcium influx, respectively, were found to markedly increase VPF/VEGF mRNA expression in cardiac myocytes. Forskolin, a potent stimulator of adenylate cyclase, produced a small but significant increase in VPF/VEGF mRNA expression in the cardiac myocytes. However, only H7, an inhibitor of protein kinase C, inhibited the hypoxic induction of VPF/VEGF mRNA; inhibitors of calcium influx and the calcium-calmodulin-dependent protein kinase II as well as inhibition of protein kinase A did not block the hypoxic induction of VPF/VEGF mRNA. This suggests that more than one signal transduction pathway is involved in regulating VPF/VEGF expression. The sensor that regulates the expression of hypoxia-responsive genes has been proposed to be a heme protein. Consistent with this model, transition metals initiate a genetic program similar to hypoxia.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Regulation of vascular endothelial growth factor in cardiac myocytes. 772 92

To evaluate the adenosine systems ability to reverse the endothelial damage produced by ischemia and reperfusion (I/R), we studied several different selective adenosine-receptor agonists and antagonists, a protein kinase A inhibitor, and a beta-adrenoreceptor antagonist in isolated buffer-perfused rat lungs. I/R (45 min/105 min) produced a sixfold increase in endothelial permeability as measured by the capillary filtration coefficient. Both a selective A2-receptor agonist (CGS-21680, 300 nM) and a beta-receptor agonist (isoproterenol, 10 microM) reversed the increased microvascular permeability. A nonselective adenosine-receptor antagonist (SPT, 20 microM) and a selective A1-receptor antagonist (DPCPX, 10 nM) had no effect on increased microvascular permeability. Also, isoproterenol and CGS-21680 reversed the damage being introduced after a selective A1-receptor agonist (CCPA, 100 nM). The nonspecific adenosine A1- and A2-receptor agonist NECA (12 nM) appeared to desensitize the A2 receptors and a protein kinase A inhibitor, adenosine-3',5'-cyclic monophosphothioate (Rp-cAMPS, 100 microM), blocked the reversal of endothelial damage by isoproterenol or A2-receptor agonist. Propranolol (100 microM) blocked the effect of isoproterenol but not the effect of CGS-21680. From this study we conclude that A2-receptor activation reverses endothelial damage associated with I/R by a mechanism independent of beta-receptors or Gi protein. However, a protein kinase A-3',5',-cyclic adenosine monophosphate pathway is activated by both the adenosine systems and beta-receptor activation.
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PMID:Adenosine A2 receptors reverse ischemia-reperfusion lung injury independent of beta-receptors. 777 45

Both CA1 and dentate gyrus regions of the hippocampal slice exhibit an irreversible loss of synaptic transmission after exposure to in vitro ischemic conditions (buffer without oxygen and glucose). However, after shorter durations of ischemia (8-10 min) the CA1 region shows an irreversible loss of synaptic responses, whereas the dentate gyrus region completely recovers synaptic responses upon reoxygenation. To determine biochemical mechanisms underlying this differential susceptibility, we have examined changes in Ca2+/calmodulin-dependent protein kinase II (CaM-KII) and cyclic AMP-dependent protein kinase activities in homogenates from CA1 and dentate gyrus regions of the hippocampal slice after increasing durations of in vitro ischemia. Time-dependent changes in CaM-KII activities were correlated with changes in electrophysiological responses. CA1 homogenates from slices exposed to 1 min of ischemia showed significant increases in CaM-KII activity, whereas there was no significant change in kinase activity in dentate homogenates after 1 min of ischemia. However, after longer durations of ischemia (5, 10, and 20 min) we found a time-dependent reduction in CaM-KII activity in both CA1 and dentate gyrus regions, whereas no change was detected in cyclic AMP-dependent protein kinase activity. Irreversible depression of CaM-KII activity was seen at shorter durations of ischemia (10 min) in the CA1 region than in dentate region (20 min), which correlated with irreversible effects on synaptic responses. Immunoblot analysis showed that the decrease in CaM-KII activity was not due to degradation of CaM-KII protein.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Activity of Ca2+/calmodulin-dependent protein kinase II following ischemia: a comparison between CA1 and dentate gyrus in a hippocampal slice model. 796 41

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