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)

Chinese hamster ovary cells exhibit several characteristic morphological and physiological responses upon treatment with agents which increase the intracellular level of adenosine 3':5'-phosphate (cyclic AMP). To better understand the mechanism of these cyclic AMP-mediated responses, we separated two cyclic AMP-dependent protein kinases (ATP:protein phosphotransferase, EC 2.7.1.37) (protein kinase I and protein kinase II) from the cytosol of Chinese hamster ovary cells by DEAE-cellulose chromatography and studied their properties. Protein kinase I is eluted at a lower salt concentration than protein kinase II and is stimulable to 10 times its basal catalytic activity, while protein kinase II is stimulable only 2-fold. Both kinases are completely dissociated by cyclic AMP and inhibited by specific cyclic AMP-dependent protein kinase inhibitor. They have similar Km values for magnesium (approximately 1 mM), cyclic AMP (approximately 60 nM), and ATP (approximately 0.1 mM), and the dissociation constant (Kdis) for cyclic AMP (approximately 13 nM) is the same for both enzymes. However, they appear to have different substrate preferences and cyclic AMP-binding properties in that cyclic AMP bound to protein kinase II exchanges readily with free cyclic AMP, while that bound to protein kinase I is not exchangeable. The native enzymes have different sedimentation coefficients (6.4 S for protein kinase I and 4.8 S for protein kinase II), whereas those of the activated enzymes are the same (2.9--3.0 S). It appears that the two cyclic AMP-dependent protein kinases which differ from each other in their regulatory subunits may play different roles in the mediation of cyclic AMP action in Chinese hamster ovary cells.
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PMID:Characterization of two adenosine 3':5'-phosphate-dependent protein kinase species from Chinese hamster ovary cells. 21 11

Beta-Adrenoceptor agonists activate a time- and voltage-independent Cl- conductance in mammalian cardiac myocytes. To characterize the cellular signaling pathways underlying its regulation, wide-tipped pipettes fitted with a pipette perfusion device were used to record whole-cell current and to introduce nucleotides to the interior of guinea pig ventricular myocytes. Replacement of pipette GTP with GDP beta S prevented activation of the Cl- conductance by Iso, suggesting a requirement for G protein turnover. With GTP in the pipette, the effect of Iso could be abolished by the beta-adrenoceptor antagonist propranolol, and mimicked by histamine or forskolin. These actions of Iso and forskolin are mediated exclusively via cAMP-dependent protein kinase (PKA), because (a) maximal activation of the Cl- conductance by forskolin or pipette cAMP occluded the effect of Iso, and (b) switching to pipette solution containing a synthetic peptide inhibitor (PKI) of PKA completely abolished the Cl- conductance activated by Iso and prevented the action of forskolin, but had no further effect. These results argue against basal activation of the Cl- conductance, and make it extremely unlikely that the stimulatory G protein, Gs, has any direct, phosphorylation-independent influence. The muscarinic receptor agonists acetylcholine (ACh) and carbachol diminished, in a reversible manner, Cl- conductance activated by Iso or forskolin, but not that elicited by cAMP. The muscarinic inhibition was abolished by replacing pipette GTP with GDP beta S, or by preincubating cells with pertussis toxin (PTX), and was therefore mediated by an inhibitory G protein, presumably Gi, influencing adenylyl cyclase activity. Nonhydrolyzable GTP analogues (GTP gamma S or GppNHp) applied via the pipette did not themselves activate Cl- conductance, but rendered Cl- current activation by brief exposures to Iso or histamine, but not to forskolin, irreversible. The Cl- conductance persistently activated by Iso was insensitive to propranolol or ACh, but could still be abolished by pipette application of PKI. The data indicate that stimulation of beta-adrenergic or histaminergic receptors in the presence of nonhydrolyzable GTP analogues causes persistent activation of Gs and uncouples it from the receptors. We conclude that autonomic regulation of cardiac Cl- conductance reflects accurately the underlying modulation of adenylyl cyclase activity and, hence, that this system is a suitable mammalian model for in situ studies of the interactions between adenylyl cyclase, Gs, Gi, and forskolin.
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PMID:Role of GTP-binding proteins in the regulation of mammalian cardiac chloride conductance. 137 58

The inhibitor protein (PKI) of the cAMP-dependent protein kinase was first characterized from rabbit skeletal muscle. More recently a form of PKI was isolated and cloned from rat testis which shares relatively limited amino acid sequence with the rabbit skeletal muscle form. We have now isolated a cDNA from rat brain which encodes a protein corresponding to the rabbit skeletal muscle PKI. This establishes the presence of the "skeletal muscle" and "testis" proteins in the same species and therefore that they clearly represent distinct isoforms. We have also demonstrated that the isoform from testis, like the skeletal muscle isoform, is specific for the cAMP-dependent protein kinase and that it is able to inhibit this enzyme when expressed in cultured JEG-3 cells. Both forms contain the five specific amino acid recognition determinants which have been shown to be required for high affinity binding to the protein kinase catalytic site, although there is some noted lack of conservation of codons used for these residues. Overall, the two rat isoforms are only 41% identical at the amino acid level and 46% at the level of coding nucleotides. We propose that the rabbit skeletal muscle and rat testis forms be designated PKI alpha and PKI beta, respectively. Using Northern blot analysis, we have examined the tissue distribution of the two forms in the rat and their relative expression during development. In the adult rat, mRNA of the PKI alpha species is highest in muscle (both skeletal and cardiac) and brain (cortex and cerebellum).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The alpha- and beta-isoforms of the inhibitor protein of the 3',5'-cyclic adenosine monophosphate-dependent protein kinase: characteristics and tissue- and developmental-specific expression. 149 92

Postsynaptic densities (PSD) are a network of proteins located on the internal surface of excitatory synapses just inside the postsynaptic membrane. Enzymes associated with the PSD are optimally positioned to respond to signals transduced across the postsynaptic membrane resulting from excitatory synaptic transmission or neurotransmitter release. We present evidence suggesting that type II cAMP-dependent protein kinase (PKA) is anchored to the PSD through interaction of its regulatory subunit (RII) with an A-Kinase Anchor Protein (AKAPs). A cDNA for the human RII-anchoring protein, AKAP 79, was isolated by screening an expression library with radiolabeled RII. This cDNA (2621 base pairs) encodes a protein of 427 amino acids with 76% identity to bovine brain AKAP 75 and 93% identity to a carboxyl-terminal RII-binding fragment of murine brain AKAP 150. A bacterially expressed 92-amino acid fragment, AKAP 79 (335-427) was able to bind RII alpha. Disruption of secondary structure by site-directed mutagenesis at selected residues within a putative acidic amphipathic helix located between residues 392 and 408 prevented RII binding. Immunological studies demonstrate that AKAP 79 is predominantly expressed in the cerebral cortex and is a component of fractions enriched for postsynaptic densities. AKAP antisera strongly cross-react with a 150-kDa protein in murine PSD believed to be AKAP 150. Co-localization of the type II PKA in purified PSD fractions was confirmed immunologically by detection of RII and enzymologically by measuring cAMP-stimulated phosphorylation of the heptapeptide substrate Kemptide. Approximately 30% of the PSD kinase activity was specifically inhibited by PKI 5-24 peptide, a highly specific inhibitor of PKA. We propose that AKAP 79 and AKAP 150 function to anchor the type II PKA to the PSD, presumably for a role in the regulation of postsynaptic events.
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PMID:Localization of the cAMP-dependent protein kinase to the postsynaptic densities by A-kinase anchoring proteins. Characterization of AKAP 79. 151 24

During chemically induced differentiation of murine erythroleukemia (MEL) cells, cAMP-dependent protein kinase activity increases, and the enzyme's isozyme pattern changes. To examine the enzyme's role during MEL cell differentiation, we stably transfected MEL cells with recombinant plasmids in which the mouse metallothionein I promoter controlled expression of either a mutant form of the type I regulatory subunit of cAMP-dependent protein kinase (RI) or the enzyme's specific peptide inhibitor (PKI); expressing either sequence rendered cells cAMP-dependent protein kinase-deficient. Chemically induced differentiation of MEL cells as assessed by beta-globin mRNA and hemoglobin accumulation was inhibited in RI mutant and PKI transfectants; adding zinc further inhibited differentiation in the transfectants but had no effect on parental MEL cells. The inhibition of differentiation correlated with the amount of RI mutant mRNA and protein in the RI mutant transfectants and with the cells' degree of cAMP-dependent protein kinase deficiency in both the RI mutant and PKI transfectants. Overexpression of wild type RI did not interfere with differentiation or enzyme activity. We conclude that cAMP-dependent protein kinase activity is important for chemically induced differentiation of MEL cells and that the down-regulation of RI protein which occurs during MEL cell differentiation is not essential for differentiation to proceed.
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PMID:Chemically induced murine erythroleukemia cell differentiation is severely impaired when cAMP-dependent protein kinase activity is repressed by transfected genes. 164 3

The theme of this study is an evaluation of the involvement of cAMP and cAMP-dependent protein kinase (PKA) in the regulation of the human heat shock protein (hsp) 70 gene promoter. Expression of a highly specific protein inhibitor of PKA (pRSVPKI) inhibited the basal as well as heat- and cadmium-induced expression of the cotransfected pHBCAT, a human hsp 70 promoter-driven reporter gene; this inhibition was dependent on the amount of pRSVPKI used. The effect of an expression vector of the RI regulatory subunit of PKA, pMTREV, was similar to that of pRSVPKI; pMTREV inhibited both the basal as well as the heat-induced expression of pHBCAT. The specificity of effects of these expression vectors was demonstrated by the lack of effect of a mutant PKI gene and by the unaffected expression of a reference gene (pRSV beta gal) under these conditions. Analysis of the effects of dibutyryl cAMP (1 mM), forskolin (10 microM), and 8-Br-cAMP (1 mM) on the transient expression of pHBCAT showed that these cAMP-elevating agents stimulated the hsp 70 promoter activity, whereas cAMP (1 mM) was without effect. Chloramphenicol acetyltransferase gene constructs with truncated or mutated hsp 70 promoter were used to define the cis-acting DNA element(s) that confer this cAMP stimulation; the heat induced (42 degrees C) expression was used as a control. Mutation of the adenovirus transcription factor element (pLSN-40/-26) greatly reduced the basal level of expression; forskolin had little or no effect on this adenovirus transcription factor-minus promoter, although the promoter activity was very heat inducible. The absence of a functional heat shock consensus element (HSE) in the construct pLSPNWT rendered the promoter heat insensitive; this construct was forskolin responsive although the magnitude of this stimulation was reduced when compared with that of a control construct with HSE. These results were corroborated by studies using consensus sequence of ATF (ATFE) and HSE as competitors to titrate our cellular factors that may interact with these elements. We showed that cotransfection with ATFE and HSE depressed the basal (37 degrees C) expression of pHBCAT by 25 and 60%, respectively. The heat-induced expression of pHBCAT was not significantly affected by the cotransfection of ATFE and was reduced by 60% when HSE was cotransfected. ATFE and HSE reduced the forskolin-induced pHBCAT expression by 70 and 40%, respectively. The implications of these findings as they relate to the action of cAMP and cAMP-dependent protein kinase in the control of heat shock gene expression are discussed.
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PMID:cAMP and cAMP-dependent protein kinase regulate the human heat shock protein 70 gene promoter activity. 164 17

Previous independent studies suggested that type II cAMP-dependent protein kinase and the p34cdc2 protein kinase cell cycle regulator co-localize at centrosomes. In order to investigate whether there is an association of type II cAMP-dependent protein kinase with p34cdc2 in human fibroblasts, we used three different approaches. First, the regulatory subunits RI and RII were photoaffinity-labeled with 8-N3-[32P]cAMP, and anti-p34cdc2 immunoprecipitates were screened for the presence of either RI or RII regulatory subunits by one- or two-dimensional gel electrophoresis. Second, anti-RII alpha immunoprecipitates were screened for the presence of p34cdc2 by Western blot using three different affinity-purified antibodies recognizing different domains of human p34cdc2. Conversely, anti-p34cdc2 immunoprecipitates (three different antibodies), as well as the material retained on p13suc1-Sepharose Bio-Beads, which binds specifically p34cdc2, were screened for the presence of RII alpha. Finally, we have looked for cAMP-dependent protein kinase activity specifically inhibited by PKI in immunoprecipitates obtained from extracts treated with different anti-p34cdc2 antibodies. All these experiments gave concordant results and demonstrate that at least at G0/G1, human fibroblasts contain a complex of active type II cAMP-dependent protein kinase associated through its RII alpha subunit with p34cdc2.
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PMID:Association of type II cAMP-dependent protein kinase with p34cdc2 protein kinase in human fibroblasts. 191 18

Addition of [gamma -32P]ATP to a 2% Brij-78 40,000g supernatant of sea urchin sperm results in the cAMP-dependent phosphorylation of eight to ten proteins. One phosphoprotein of Mr 190 kD is sperm adenylate cyclase (AC). An antiserum to the AC immunoprecipitates the Mr 190 kD protein. Peptide maps of immunoprecipitates show that the AC is the only phosphoprotein present in the Mr 200 kD range. With respect to the in vitro phosphorylation of AC, the endogenous kinase has a Km for ATP of 5.2 microM and is maximally stimulated by 4-8 microM cAMP. The protein kinase inhibitors H8 (9 microM) and PKI (30 U/ml) inhibit the phosphorylation of the AC. The catalytic subunit of bovine cAMP-dependent protein kinase phosphorylates the AC on the same peptides as the endogenous protein kinase. Cyanogen bromide generated peptide maps of the phosphorylated AC show a minimum of five sites of phosphorylation. No change in the Km or Vmax of the sperm AC resulted from the additional phosphorylation by bovine kinase. Calcium ions at submicromolar concentrations completely block the in vitro phosphorylation of the AC, suggesting the presence in the preparation of a Ca2(+) -activated protein phosphatase. To our knowledge, this is the first report of the phosphorylation of an AC by cAMP-dependent protein kinase.
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PMID:In vitro phosphorylation of sea urchin sperm adenylate cyclase by cyclic adenosine monophosphate-dependent protein kinase. 200 28

Inhibiting cAMP-dependent protein kinase (A-kinase) in mammalian fibroblasts through microinjection of a modified specific inhibitor peptide, PKi(m) or the purified inhibitor protein, PKI, resulted in rapid and pronounced chromatin condensation at all phases of the cell cycle. Together with these changes in chromatin, a marked reorganization of microtubule network occurred, accompanied in G2 cells by extensive alterations in cell shape which have many similarities to the premitotic phenotype previously observed after activation of p34cdc2 kinase, including the lack of spindle formation and the persistence of a nuclear envelope. In order to examine whether A-kinase inhibition and p34cdc2 kinase form part of the same or different inductive pathways, PKI and p34cdc2 kinase were injected together. Co-injection of both components resulted in nuclear envelope disassembly, an event not observed with injection of either component alone. This result implies that p34cdc2 and A-kinase inhibition have complementary and additive effects on the process of nuclear envelope breakdown in living fibroblasts, a conclusion further supported by our observation of a pronounced dephosphorylation of lamins A and C in cells after injection of PKi(m). Taken together, these data suggest that down-regulation of A-kinase is a distinct and essential event in the induction of mammalian cell mitosis which co-operates with the p34cdc2 pathway.
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PMID:Inhibition of cAMP-dependent protein kinase plays a key role in the induction of mitosis and nuclear envelope breakdown in mammalian cells. 202 48

Synthetic peptides corresponding to the autoinhibitory domains of calcium/calmodulin-dependent protein kinase II (CaMK-(281-309)), smooth muscle myosin light chain kinase (MLCK-(480-501)), and protein kinase C (PKC-(19-36)) as well as a peptide derived from the heat-stable inhibitor of cAMP-dependent protein kinase (PKI-tide) were tested for their inhibitory specificities. The inhibitory potencies of the four peptides were determined for each of the four protein kinases using both peptide substrates (at approximate Km concentrations) and protein substrates (at concentrations less than Km). In agreement with previous studies PKI-tide was a specific and potent inhibitor of only cAMP kinase, and none of the other inhibitory peptides gave significant inhibition of cAMP kinase at concentrations of less than 100 microM. With synthetic peptide substrates, PKC-(19-36) strongly inhibited native PKC (IC50 less than 1 microM) but also significantly inhibited autophosphorylated CaMK-II (IC50 = 30 microM) and proteolytically activated MLCK (IC50 = 35 microM). MLCK-(480-501) potently inhibited MLCK (IC50 = 0.25 microM) and also strongly inhibited both PKC and CaMK-II (IC50 = 1.4 and 1.7 microM, respectively). CaMK-(281-309) inhibited autophosphorylated CaMK-II, PKC, and proteolyzed MLCK almost equally (IC50 = 10, 38, and 48 microM, respectively). Qualitatively similar results were obtained with protein substrates. These studies validate the use of PKI-tide as a specific inhibitor of cAMP kinase in intact cell studies and suggest that PKC-(19-36) can also be used but only within a narrow concentration range. However, the autoinhibitory domain peptides from MLCK and CaMK-II are not sufficiently specific to be used in similar investigations.
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PMID:Specificities of autoinhibitory domain peptides for four protein kinases. Implications for intact cell studies of protein kinase function. 215 65


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