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)

Calcitonin (CT) activates both the cAMP and the protein kinase C (PKC) pathways in the kidney cell line LLC-PK1. Although CT also activates cAMP in osteoclasts, its effects on PKC in this cell type are unknown. In order to determine whether the response of osteoclasts to CT also involves the PKC pathway, the effects of activators and inhibitors of PKC on bone resorption and cell surface area were analyzed in isolated rat osteoclasts. As expected, CT inhibited in a dose-dependent manner bone resorption by rat osteoclasts cultured for 24 h on devitalized bovine bone slices and this effect could be mimicked by cAMP. The inhibitory effect of CT could however also be mimicked by phorbol-12,13-dibutyrate (PDBu) and blocked by the PKC inhibitor sphingosine, as well as by the less specific inhibitors H7 and H8, none of which had detectable effects in the absence of CT. No changes in the number of attached osteoclasts were observed under any of these conditions. These results indicate that CT activates PKC in osteoclasts and that this activation, like the activation of cAMP-dependent protein kinase, leads to an inhibition of bone resorption. Quantitative time-lapse videomicroscopy showed that the CT-induced retraction of osteoclasts also involved activation of the PKC pathway and could therefore be induced by phorbol esters. In contrast, (Bu)2 cAMP (1-200 microM) failed to induce rapid cell retraction. It is concluded that, in osteoclasts, CT receptors are coupled to both the cAMP-dependent protein kinase and the PKC pathways. Although these two second messengers can have additive inhibitory effects on bone resorption, only activation of the PKC pathway induces rapid cell retraction. These two effects of calcitonin on osteoclasts are therefore independent and may be functionally unrelated.
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PMID:Differential effects of the 3',5'-cyclic adenosine monophosphate and protein kinase C pathways on the response of isolated rat osteoclasts to calcitonin. 132 63

In the porcine renal epithelial cell line, LLC-PK1, activation of the cAMP-dependent signal transduction pathway induces the urokinase-type plasminogen activator (uPA) gene. We show here that the cAMP response is enhanced when the intracellular calcium concentration is increased. When LLC-PK1 cells were treated with the calcium ionophore ionomycin alone, there was no uPA mRNA accumulation. However, in the presence of ionomycin the dose-response of 8-bromo-cAMP (Br-cAMP) with respect to uPA mRNA accumulation was shifted toward the lower concentrations of Br-cAMP. A Northern blot analysis after the inhibition of RNA synthesis and nuclear run-on assays showed that the synergistic effect of Ca2+ could be attributed to increases in uPA gene transcription and mRNA stability. In the presence of cycloheximide, a protein synthesis inhibitor, uPA mRNA was stabilized, but the effect of ionomycin on Br-cAMP-induced mRNA accumulation was still maintained. The result suggests that the Ca2+, at least on transcription, does not require new protein synthesis. Ionomycin treatment did not modify the activity of the cAMP-dependent protein kinase, suggesting that Ca2+ either affects a step in the pathway between the kinase and the uPA gene, or acts independently of the cAMP-dependent protein kinase pathway. The effect of ionomycin was not suppressed by protein kinase C down-regulation nor by inhibitors of calmodulin. Synergism was also observed when Br-cAMP was replaced with calcitonin, a peptide hormone which is coupled to adenylate cyclase, and when ionomycin was replaced with another ionophore A23187, suggesting that the synergism is due to an interaction between cAMP-dependent and Ca2(+)-dependent signal transduction pathways.
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PMID:Ca2+ potentiates cAMP-dependent expression of urokinase-type plasminogen activator gene through a calmodulin- and protein kinase C-independent mechanism. 170 Nov 76

A novel "cAMP-resistant" variant of LLC-PK1 renal epithelial cells which is impaired in in vivo down-regulation of response following hormonal stimulation of adenylate cyclase (AC) is described. Compared to parental cells, the BIB27 mutant exhibited markedly higher in vivo activation of cAMP-dependent protein kinase (cAMP-PK) in response to the hormones salmon calcitonin (SCT) or [Arg8]-vasopressin (AVP) or the AC activator forskolin. The activation of cAMP-PK subsequent to agonist stimulation also persisted much longer in the mutant than in LLC-PK1 cells, although the cAMP-PK of BIB27 cells was normal in terms of both absolute levels and regulation by cAMP in vitro. Intracellular cAMP accumulation was also much higher in BIB27 than in LLC-PK1 cells following agonist stimulation. Production of cAMP could be detected in BIB27 cells even 12 h after treatment with AVP or SCT, whereas cAMP production in LLC-PK1 had returned to basal within 1 and 8 h, respectively. High levels of free cAMP-PK catalytic (C) subunit in BIB27 persisted even 12 h after hormone addition, meaning that the higher cAMP production in BIB27 did not result in the normal down-regulation of cAMP-PK C subunit levels. In vitro AC activity in BIB27 cell homogenates could be stimulated by hormones or receptor-independent agonists, but to a lesser extent than in LLC-PK1 cell homogenates. The SCT and AVP concentrations promoting half-maximal AC activation in BIB27 cells were about 10- and 3-fold higher than parental, respectively. BIB27 accordingly appeared to possess a mutation in AC responsible for the impairment of both in vitro response to agonists and the normal in vivo down-regulation processes following hormonal stimulation.
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PMID:A novel LLC-PK1 renal epithelial cell mutant impaired in in vivo down-regulation of cAMP-mediated hormonal response. 171 64

The precise mechanistic role of the cAMP-dependent protein kinase (cAMP-PK) in cAMP-mediated gene induction remains unclear. Renal epithelial cell mutants were compared to the LLC-PK1 parental cell line for induction of the cAMP-responsive urokinase-type plasminogen activator (uPA) gene, as quantitated by the technique of mRNA solution hybridization. The FIB4 and FIB6 mutants, which possess less than 10% parental cAMP-PK catalytic (C) subunit activity, showed markedly diminished uPA mRNA induction in response to agents elevating intracellular cAMP such as the cAMP analogue 8-bromo-cAMP and the adenylate cyclase-stimulating hormones vasopressin and calcitonin. In contrast, the mutant cells responded to a similar or greater extent than the parental cells in terms of uPA mRNA induction following treatment with the Ca2+/phospholipid-dependent protein kinase activator phorbol 12-myristate 13-acetate (PMA). Elevation of intracellular cAMP was found to induce a translocation of the cAMP-PK C subunit from the perinuclear Golgi region to the nucleus in both parental and mutant cell lines, as shown by immunocytochemical techniques. Results argue for the role of the cAMP-PK C subunit activity and possibly nuclear translocation of the C subunit in cAMP-mediated uPA induction, which is mechanistically distinct from the PMA-stimulated response.
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PMID:Mechanisms of cAMP-mediated gene induction: examination of renal epithelial cell mutants affected in the catalytic subunit of the cAMP-dependent protein kinase. 189 92

Skeletal muscle dihydropyridine-sensitive calcium channels are in vitro substrates for cAMP-dependent protein kinase. In the present work, alpha 1 subunits were isolated from cultured skeletal muscle cells by immunoprecipitation with a specific monoclonal antibody under conditions where proteolysis and dephosphorylation were prevented. Two forms of alpha 1 subunit, 200 and 160 kDa, were identified by back phosphorylation in vitro with cAMP-dependent protein kinase, specific immunoprecipitation, and phosphopeptide mapping. Treatment of cells with forskolin, isoproterenol, calcitonin gene-related peptide, or 8-bromo-cAMP to increase intracellular cAMP reduced 32P incorporation into all phosphopeptides in vitro by 60-80% indicating that increases in cAMP caused endogenous phosphorylation of all sites on both alpha 1(200) and alpha 1(160) to nearly maximal levels. The extents of basal and stimulated phosphorylation in vivo were estimated by back phosphorylation methods to be 35-40% and 83-86%, respectively. In muscle cells metabolically labeled with 32P, 3 mol of phosphate were incorporated into alpha 1 subunits. Forskolin stimulated 32P incorporation into alpha 1 subunits 1.6-fold. Taken together, our results show that skeletal muscle cells contain two forms of the alpha 1 subunit which both are basally phosphorylated on cAMP-dependent phosphorylation sites and are further phosphorylated in response to agents that increase intracellular cAMP.
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PMID:Cyclic AMP-dependent phosphorylation of two size forms of alpha 1 subunits of L-type calcium channels in rat skeletal muscle cells. 217 28

The cAMP-dependent protein kinase from LLC-PK1 cells can be activated in vivo by calcitonin and vasopressin, or forskolin. Continuous treatment of cells with these agents results in a decrease of total cAMP-PK activity. The loss of kinase activity was enhanced when either of these three agents was incubated in the presence of isobutylmethylxanthine. Results obtained using affinity purified antibodies to the catalytic subunit show that the loss of kinase was due to specific proteolysis of this subunit.
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PMID:cAMP mediated proteolysis of the catalytic subunit of cAMP-dependent protein kinase. 241 85

The nicotinic acetylcholine receptor (AChR) is a substrate for at least three different protein kinases, and phosphorylation of the receptor has been shown to increase its rate of desensitization. However, the first messengers that regulate AChR phosphorylation have not yet been identified. This study demonstrates that calcitonin gene-related peptide (CGRP), a neuropeptide present in the axon terminals of the neuromuscular junction, regulates phosphorylation of the AChR in primary rat myotube cultures. CGRP, in the presence of the phosphodiesterase inhibitor Ro 20-1724, increased phosphorylation of the alpha and delta subunits of the AChR. CGRP-induced phosphorylation of the AChR had the same subunit specificity and temporal sequence as previously observed using forskolin or cAMP analogs. Phosphorylation of the AChR in the presence of CGRP appears to be mediated by CGRP-stimulated increases in cAMP levels leading to activation of cAMP-dependent protein kinase. The present results, taken together with the recent demonstration that CGRP increases the rate of AChR desensitization in mouse myotubes, suggest that CGRP may play a physiological role as a regulator of AChR desensitization by modulating AChR phosphorylation at the neuromuscular junction.
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PMID:Calcitonin gene-related peptide regulates phosphorylation of the nicotinic acetylcholine receptor in rat myotubes. 256 Jun 47

A photoreactive analogue of vasopressin, [1-(3-mercapto)propionic acid, 8-(N6-4-azidophenylamidino)lysine]-vasopressin, was compared to salmon calcitonin and [8-arginine]-vasopressin with respect to stimulation of cAMP synthesis in the LLC-PK1 pig kidney epithelial cell line. Without photoactivation, the vasopressin analogue-elicited responses were identical to those induced by vasopressin, in that cAMP synthesis returned to the basal, unstimulated level about 4 h after hormonal treatment. In contrast, the levels of activation of cAMP-dependent protein kinase induced by salmon calcitonin returned to basal approx. 12 h after hormone addition. When activated by ultraviolet irradiation, the vasopressin analogue induced 'permanent' stimulation of adenylate cyclase, whereby cAMP production could be detected even 12.5 h after treatment. Both salmon calcitonin and the photoactivated vasopressin analogue inhibited growth of LLC-PK1 cells, in contrast to vasopressin or the nonactivated analogue. Growth inhibition appeared to be a consequence of the prolonged stimulation of adenylate cyclase. This conclusion was supported by the fact that a LLC-PK1 cell mutant in cAMP-dependent protein kinase was resistant to growth inhibition by salmon calcitonin and activated vasopressin analogue. The results imply that the cAMP-dependent protein kinase is the mediator of the hormone-stimulated growth inhibition.
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PMID:Long-term stimulation of cAMP production in LLC-PK1 pig kidney epithelial cells by salmon calcitonin or a photoactivatable analogue of vasopressin. 282 May 5

In LLC-PK1 cells, a cyclic AMP (cAMP)-elevating peptide hormone, calcitonin, induces urokinase-type plasminogen activator (uPA) gene transcription without concomitant protein synthesis. To understand the molecular mechanism of the uPA gene regulation by cAMP, we developed a system which allows us to obtain mutant cells with modified regulatory proteins. A uPA-gpt hybrid gene was constructed, in which the regulatory region of the uPA gene was linked to a bacterial xanthine-guanine phosphoribosyltransferase gene (gpt), and it was transfected into LLC-PK1 cells. A stably transformed cell line, which expressed gpt only in the presence of calcitonin, was obtained, and then these cells were treated with a chemical mutagen, ethyl methanesulfonate. Cells were screened for constitutive gpt expression and, as mutations in regulatory proteins should affect the two genes at the same time, cells were further screened for an increased basal uPA mRNA level. Several such clones were obtained and none of them had modified cAMP-dependent protein kinase activity, suggesting that mutations were in the post-protein kinase step in the pathway of hormone action. Five clones were fused with the parent LLC-PK1 cells, and all of the fusion cells showed reduced basal uPA mRNA levels, indicating that they were recessive mutants. One clone was analyzed further for sensitivity to calcitonin in the induction of uPA mRNA, and it showed a significantly different dose-response pattern compared with parent cells. These results suggest that the uPA gene is regulated, at least partly, by a negatively regulating factor and that the action of cAMP is linked to this factor.
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PMID:A new genetic approach for studying hormonal regulation of urokinase-type plasminogen activator gene expression in LLC-PK1 cells. 283 Apr 99

Mutants of the pig kidney cell line, LLC-PK1, affected in cAMP metabolism, were examined for cAMP-dependent protein kinase (cAMP-PK) activity and for cAMP-mediated induction of urokinase-type plasminogen activator (uPA). The FIB4 and FIB6 mutant cell lines possessed about 10% parental levels of cAMP-PK activity and concomitantly reduced uPA production (10-20% parental) in response to calcitonin, forskolin and 8-bromo cAMP. The FIB1, FIB2 and FIB5 mutant cell lines had about 70% parental levels of cAMP-PK and the synthesis of uPA was 40-60% parental. Thus, cAMP-mediated induction of uPA showed a dependence on the absolute levels of cAMP-PK. However, uPA synthesis in response to phorbol-12-myristate-13-acetate by all of the mutants was similar to parental, which indicates that enzyme induction mediated by phorbol esters does not involve cAMP or cAMP-PK.
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PMID:LLC-PK1 cell mutants in cAMP metabolism respond normally to phorbol esters. 301 54


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