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)

The signaling pathways by which intermittent strain (60 cycles/min, 15 min/h) regulates proliferation of mixed fetal rat lung cell in vitro have been investigated. Adenosine 3',5'-cyclic monophosphate (cAMP) content and cAMP-dependent protein kinase (PKA) activity were not affected by strain. The stimulatory effect of strain on DNA synthesis was also not influenced by the cyclic nucleotide-dependent protein kinase inhibitors H-8 or HA-1004, the adenylate cyclase inhibitor SQ-22536, or a PKA inhibitor and cAMP antagonist, adenosine 3',5'-cyclic monophosphothioate (Rp-cAMPS). In contrast, intracellular concentrations of two second messengers, inositol 1,4,5-trisphosphate (IP3) and diacylglycerol (DAG), were dramatically increased after a short period of strain. This increase in second messengers was accompanied by an increased tyrosine phosphorylation of phospholipase C-gamma 1. Phospholipase D activity was also increased by strain. Mechanical strain elicited a shift in the subcellular distribution of PKC activity from cytosol to membranes shortly after the onset of strain. The specific activity of PKC in the membranes increased 6- to 10-fold within 5-15 min and remained increased throughout a 48-h period of intermittent strain. Strain-induced PKC activation and DNA synthesis were blocked by the PKC inhibitors H-7, staurosporine, and calphostin C, as well as by the phospholipase C inhibitor U-73,122. We conclude that mechanical strain of mixed fetal rat lung cells activates phospholipid turnover via phospholipases, followed by PKC activation, which then triggers the downstream events that lead to cell proliferation.
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PMID:Mechanical strain-enhanced fetal lung cell proliferation is mediated by phospholipase C and D and protein kinase C. 776 75

The clinical efficacy of dopamine (DA) replacement therapy for patients with Parkinson's disease (PD) depends on the preservation of postsynaptic DA receptors and their intracellular signalling mechanisms in the striatum long after degeneration of the nigrostriatal DA pathway. DA activates adenylyl cyclase (AC) and phospholipase C (PLC) via the D1 receptor, and inhibits through the D2 receptor, thereby regulating the production of intracellular second messengers, cyclic adenosine 3',5'-monophosphate (cAMP), 1,2-diacylglycerol (DAG) and Ca2+. Recent advances in molecular biology have made it possible to monitor the intracellular signal transduction cascade following receptor activation by various transmitters. The authors review the literature addressing this issue, summarized as follows: (1) striatal D1 and D2 receptor densities remain constant, at least in treated and non-demented patients; (2) DA-sensitive AC activity appears to be increased in the putamen of treated patients, although this remains to be confirmed; (3) levels of cAMP-dependent protein kinase (PKA) are normal in non-demented patients, consistent with unchanged levels of DARPP-32 (dopamine- and cAMP-regulated phosphoprotein of M(r) 32,000); (4) levels of Ca2+/phospholipid-dependent protein kinase (PKC) and of inositol 1,4,5-trisphosphate (InsP3) receptor also remain unchanged in non-demented patients; (5) the above three second messenger sites as well as densities of D1 and D2 receptors are decreased in the striatum of demented PD patients (PDD). We tentatively conclude that postreceptor signalling function is intact in the striatum of non-demented PD patients and that there is a clear difference between non-demented patients and PDD, i.e. striatal dopaminoceptive neurons are affected in PDD.
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PMID:Transmembrane signalling systems in the brain of patients with Parkinson's disease. 795 88

The present study was performed to clarify second messenger signaling in parathyroid hormone (PTH)-induced c-fos gene expression, to characterize the participation of the c-fos gene in the regulation of osteoblast proliferation and function as well as osteoclast-like cell formation by PTH and to compare these effects of PTH with those of PTH-related peptide (PTHrP). Both human (h) PTH-(1-34) and hPTHrP-(1-34) at 10(-8) M induced a transient c-fos gene expression to a similar degree in osteoblastic osteosarcoma cells, UMR-106. N6,O2'-dibutyryl adenosine 3',5'-cyclic monophosphate (dbcAMP) as well as Sp-diastereoisomer of adenosine cyclic 3',5'-phosphorothioate (Sp-cAMPS), an activator of cAMP-dependent protein kinase (PKA), induced a weak c-fos gene expression. Although Rp-diastereoisomer of adenosine cyclic 3',5'-phosphorothioate (Rp-cAMPS), an inhibitor of PKA, almost completely antagonized dbCAMP- and Sp-cAMPS-induced expression of c-fos gene, it did not cause an obvious inhibition of PTH- or PTHrP-induced expression. Phorbol 12-myristate 13-acetate (PMA), an activator of protein kinase C (PKC), induced an intense expression of the c-fos gene, while 4 alpha-phorbol 12,13-didecanoate (4 alpha PDD), incapable of activating PKC, and calcium ionophores (A23187 and ionomycin) did not. Protein kinase C inhibitor (H-7, 50 microM) completely blocked the expression of the c-fos gene by PTH as well as by PTHrP). Antisense oligodeoxynucleotides (as-ODN) complementary to c-fos mRNA, which have been shown to inhibit its mRNA translation, at 1 microM significantly antagonized PTH- and PTHrP-induced inhibition of [3H] thymidine incorporation and stimulation of osteoclast-like cell formation in the presence of osteoblasts, but not an increase in alkaline phosphatase activity, compared to control oligodeoxynucleotides with same nucleotides as as-ODN but with a random sequence. The present study indicates the involvement of PKC system in c-fos gene expression by PTH as well as PTHrP and also indicates the involvement of the c-fos gene in the regulation of bone cell physiology by PTH and PTHrP.
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PMID:Second messenger signaling of c-fos gene induction by parathyroid hormone (PTH) and PTH-related peptide in osteoblastic osteosarcoma cells: its role in osteoblast proliferation and osteoclast-like cell formation. 796 20

We have previously demonstrated that activation of cAMP-dependent protein kinase (cAK) type I (cAKI, RI alpha 2-C beta 2) mediates the inhibitory effects of cAMP on T-cell replication induced through the TCR/CD3 complex. In the present study we have investigated the effect of cAMP on T-cell DNA synthesis, tyrosine phosphorylation of a 100 kDa protein (pp100) and IL2 mRNA expression, induced through stimulation of the TCR/CD3- and/or the CD28 molecules. Our results demonstrate that tyrosine phosphorylation of pp100 stimulated by anti-CD3 is inhibited by cAMP both in the presence and absence of the phorbol ester PMA, and reflects the changes seen in IL2 mRNA expression and T-cell replication. Combined stimulation with anti-CD3 and anti-CD28, which gives a synergistic response in T-cell replication, gave pp100 phosphorylation and IL2 mRNA expression sensitive to cAMP-dependent inhibition. When PMA was added in addition to anti-CD3 and anti-CD28, the inhibitory effect of cAMP on both T-cell replication and pp100 phosphorylation was completely abolished. The fact that pp100 phosphorylation in response to TCR/CD3-, CD28- and PMA stimulation and cAMP mediated inhibition are identical to the effects of the same stimuli on T-cell proliferation, makes this protein an interesting candidate in downstream signalling from these receptors. In addition, our results are compatible with a model where cAMP, through activation of cAKI, eliminates both the PTK and PKC activating capability of the T-cell receptor at a site(s) proximal to PKC activation. Furthermore, the CD28 molecule which activates PTKs, enters the PTK cascade at a point distal to the target(s) for cAKI action. Therefore, during CD28 signalling PKC activation can be achieved either by TCR/CD3 stimulation (inhibited by cAMP), or directly by PMA (not inhibited by cAMP).
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PMID:Cyclic AMP sensitive signalling by the CD28 marker requires concomitant stimulation by the T-cell antigen receptor (TCR/CD3) complex. 804 42

The present study was designed to characterize the cross-talk of parathyroid hormone (PTH)-responsive dual signal transduction systems (cAMP-dependent protein kinase (PKA) and calcium/protein kinase C [PKC]) and its participation in PTH-induced homologous desensitization of intracellular calcium ([Ca2+]i) in osteoblastic UMR-106 cells. Although our recent study revealed that prolonged (more than 2 h) pretreatment with PKC-activating phorbol ester, phorbol 12-myristate 13-acetate (PMA) significantly decreased the PTH-stimulated cAMP production, pretreatment with PMA (10(-7) and 10(-6) M) but not 10(-6) M 4 alpha-phorbol 12,13-didecanoate (PDD), incapable of activating PKC for 30 min significantly augmented 10(-7) M hPTH-(1-34)-stimulated cAMP production. H-7 (50 microM), a PKC inhibitor, significantly antagonized this PMA-induced effect. Pretreatment with 10(-6) M PMA for 30 min did not affect PTH receptor binding but significantly augmented a cAMP responsiveness to 10(-5) M forskolin and 1 microgram/ml cholera toxin. Pertussis toxin (0.5 microgram/ml) did not affect the PMA-induced augmentation of the PTH-stimulated cAMP production. PTH caused a complete homologous desensitization of [Ca2+]i response within 30 min. Pretreatment with 10(-4) M dibutyryl cAMP for 30 min and 6 h significantly reduced and completely blocked the PTH-induced increase in [Ca2+]i, respectively. Pretreatment with 10(-4) M Sp-cAMPs, a direct PKA activator, for 30 min completely blocked the PTH-induced increase in [Ca2+]i. Rp-cAMPS (10(-4) M), an antagonist of PKA, slightly but significantly antagonized the PTH-induced homologous desensitization of [Ca2+]i response. The present study indicates that the time of exposure to PKC activation is a critical determinant in modulating the cAMP system, while PKA activation counterregulatorily acts on the [Ca2+]i system, and that PKA activation is linked to the PTH-induced homologous desensitization of [Ca2+]i response.
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PMID:Cross-talk of parathyroid hormone-responsive dual signal transduction systems in osteoblastic osteosarcoma cells: its role in PTH-induced homologous desensitization of intracellular calcium response. 810 73

Our recent study demonstrated the direct involvement of cAMP-dependent protein kinase (PKA) in the regulation of DNA synthesis by PTH-related peptide (PTHrP) in osteoblastic osteosarcoma cells, UMR-106. Since PTHrP has been reported to possess dual signal transduction systems [PKA and calcium/protein kinase C (Ca/PKC]), present study was performed to characterize the involvement of Ca/PKC signal transduction system in the regulation of DNA synthesis by PTHrP in these cells. Human PTHrP-(1-34) (10(-7) M) caused a rapid increase in intracellular Ca ([Ca2+]i), followed by return to the basal level within 1 min. Pretreatment with 10(-4) M TMB-8 or 10(-5) M dantrolene, inhibitors of calcium release from intracellular calcium store, significantly blocked the PTHrP-induced increase in [Ca2+]i, but did not affect the PTHrP-induced inhibition of DNA synthesis. Pretreatment with 50 uM H-7 or 1 nM staurosporine, inhibitors of PKC, significantly blocked the PTHrP (10(-9) to 10(-7) M)-induced inhibition of DNA synthesis. Pretreatment with 10(-6) M phorbol 12-myristate 13-acetate, which downregulated PKC, significantly blocked the inhibition of DNA synthesis by PTHrP. Present study indicates that in addition to PKA activation, PKC activation is coupled to the regulation of DNA synthesis by PTHrP in osteoblasts.
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PMID:Role of calcium/protein kinase C in the regulation of DNA synthesis by parathyroid hormone-related peptide in osteoblastic osteosarcoma cells. 811 63

The present study was performed to characterize the participation of parathyroid hormone (PTH)- and PTH-related peptide (PTHrP)-responsive dual signal transduction systems [cAMP-dependent protein kinase (PKA) and Calcium/protein kinase C (Ca/PKC)] in the regulation of alkaline phosphatase (ALP) activity in osteoblastic osteosarcoma cells (UMR-106). Both human (h) PTH-(1-34) and hPTHrP-(1-34) at 10(-8) M stimulated ALP activity to the similar degree. Dibutyryl, cAMP (dbcAMP) (10(-5), 10(-4) M) and Sp-diastereoisomer of adenosine cyclic 3',5'-phosphorothioate (Sp-cAMPS), a direct stimulator of PKA (10(-4) M) also stimulated its activity. Phorbol 12-myristate 13-acetate (PMA), an activator of PKC, (10(-7), 10(-6) M) did not affect its activity, while calcium ionophores, A23187 and ionomycin (10(-7), 10(-6) M) inhibited it. Although Rp-diastereoisomer of adenosine cyclic 3',5'-phosphorothioate (Rp-cAMPS), a direct inhibitor of PKA, (10(-4) M) did not affect ALP activity by itself, it significantly antagonized not only Sp-cAMPS-induced increase in ALP activity, but also PTH- and PTHrP-induced one. The present study first indicated that the activation of PKA was directly involved and acted as a main pathway in the regulation of ALP activity by PTH and PTHrP in osteoblasts.
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PMID:Direct involvement of cAMP-dependent protein kinase in the regulation of alkaline phosphatase activity by parathyroid hormone (PTH) and PTH-related peptide in osteoblastic UMR-106 cells. 812 23

The aim of this study was to evaluate the rapid regulation of cell-cell communication by using the microinjection of purified cAMP-dependent protein kinase (protein kinase A), the Ca(2+)-phospholipid-dependent protein kinase (protein kinase C), or the inhibitor proteins (PKI and CKI) that are, respectively, specific for each of these enzymes. Gap junction phenotypes of myometrial tissue and cells were studied by means of immunocytochemistry with antibody to connexin 43 (alpha 1; Cx43). Cells were enzymatically disaggregated from myometrium of nonpregnant, mid-pregnant (Day 14), and late-pregnant (Day 29) rabbit uteri (n = 8 per group) and seeded at high density such that after 4 days, cultures had the appearance of a cross-sectioned myometrium. Purified proteins and their subunits were microinjected, and intercellular communication was evaluated by monitoring Lucifer Yellow dye transfer. Cultures were treated with 0.5 mM 8Br-cAMP (8-bromo adenosine 3',5' cyclic monophosphate) or 10 microM OAG (1-oleoyl-2-acetyl-sn-glycerol), which, respectively, activate protein kinase A and protein kinase C. Immunoreactive Cx43 and cell-cell communication were examined 5 min to 2 h later. Cx43 was detected in myometrial cryosections and cultured cells by indirect immunofluorescence, and its expression increased with gestation. Exposure to 8Br-cAMP increased the amount of immunoreactive Cx43. Basal dye transfer was minimal in nonpregnant cells, increased in cells of mid-pregnant uteri, and was maximal in late-pregnant cells. Treatment with 8Br-cAMP enhanced transfer in mid- and late-pregnant cells but had no obvious effect on cells from nonpregnant animals. OAG treatment inhibited dye transfer in greater than 95% of the cells tested irrespective of pregnancy status. PKI inhibited cell-cell communication within 2 min and up to 40 min. Injection of free catalytic subunit of protein kinase A following PKI inhibition restored communication within 2-3 min, with maximal transfer in 4-5 min. Protein kinase C inhibited communication, which resumed in < 3 min after injection of CKI. We conclude that rabbit myometrial cells engage in Cx43-mediated cell-cell communication and that this process increases during pregnancy. Further, activators of protein kinase A or injected free catalytic subunit rapidly enhances cell-cell communication, whereas activators of protein kinase C or the enzyme itself diminishes this process.
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PMID:Regulation of cell-cell communication mediated by connexin 43 in rabbit myometrial cells. 814 55

Cardiac rH1 Na+ channel alpha subunits were expressed in cells of the Chinese hamster lung 1610 cell line by transfection, and a stable cell line expressing cardiac Na+ channels (SNa-rH1) was isolated. Mean Na+ currents of 2.2 +/- 1.0 nA were recorded, which corresponds to a cell surface density of approximately 1-2 channels active at the peak of the Na+ current per micron2. The expressed cardiac Na+ current was tetrodotoxin resistant (Kd = 1.8 microM) and had voltage-dependent properties similar to those of the Na+ current in neonatal ventricular myocytes. Activation of protein kinase C by 1-oleoyl-2-acetyl-sn-glycerol (OAG) (10 microM) decreased this current approximately 33% at a holding potential of -114 mV and 56% at -94 mV. This reduction in peak current was caused in part by an 8- to 14-mV shift of steady-state inactivation in the hyperpolarized direction. Na+ channel activation was unchanged. Effects of OAG in SNa-rH1 cells and in neonatal rat cardiac myocytes were similar, except that the time course of inactivation was slowed either transiently or persistently when protein kinase C was activated in myocytes bathed in low-Ca2+ (1 microM) or Ca(2+)-free solution but was unaffected in SNa-rH1 cells. The effects of OAG on cardiac Na+ current were blocked in cells that had been previously microinjected with a peptide inhibitor of protein kinase C but not with a peptide inhibitor of cAMP-dependent protein kinase, indicating that protein kinase C is responsible for the effect of OAG. Single-channel recordings from SNa-rH1 cells showed that the probability of channel opening was reduced by OAG, but the conductance was unaffected. OAG did not induce the late Na+ channel openings observed with PKC modulation of neuronal and skeletal muscle Na+ channels. Thus, the substantial reduction in Na+ current at normal diastolic depolarizations with 10 microM OAG is due to failure of channel opening in response to depolarization. Such Na+ current reductions may have profound effects on cardiac cell excitability.
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PMID:Modulation of cardiac Na+ channels expressed in a mammalian cell line and in ventricular myocytes by protein kinase C. 815 41

The present study was performed to compare the effect of parathyroid hormone-related peptide (PTHrP) on bone resorption with that of parathyroid hormone (PTH) and clarify the participation of PTHrP-responsive dual signal transduction systems involving cAMP-dependent protein kinase (PKA) and calcium/protein kinase C (Ca/PKC) in the stimulation of bone resorption by PTHrP. Bone resorbing activity was estimated as the number of pits formed on the dentine slice and total area of pits per slice in bone cells derived from 2 week-old mice. Human (h)PTHrP-(1-34) (10(7) M) stimulated bone resorption as potent as hPTH-(1-34) (10(7) M) did. The stimulation of bone resorption by hPTHrP-(1-34) and hPTH-(1-34) was equally blocked by either simultaneous treatment with 10(-8) M Elcatonin (eel calcitonin derivative; from Asahi Chemical Industry, Tokyo, Japan) [corrected] or pretreatment with 10(-7) M [Nle8,18Tyr34]hPTH-(3-34)amide. Rp-cAMPs, an antagonist in the activation of PKA, equally attenuated bone resorption stimulated by PTHrP as well as by PTH. A23187 (10(-7) M) caused a significant stimulation of bone resorption. These findings indicate the direct involvement of PKA activation and a contributory role of an increase in cytosolic calcium in the stimulation of bone resorption by PTHrP and suggest that PTHrP stimulates bone resorption presumably through the same mechanism as PTH does.
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PMID:Role of dual signal transduction systems in the stimulation of bone resorption by parathyroid hormone-related peptide. The direct involvement of cAMP-dependent protein kinase. 822 86


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