EC:2.7.11.13 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.11.13 (protein kinase C)
49,245 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Bovine aortic endothelial cells contain a prostaglandin site which binds with similar low-affinity PGE2, PGF2alpha and the thromboxane agonist U-46619. Treatment of the cells with agents that increase the level of cellular cAMP such as forskolin, a direct activator of adenylate cyclase or IBMX, a phosphodiesterase inhibitor, decreased the binding of PGE2 to the cells. Addition of dibutyryl cAMP to intact cells caused a quick reduction in PGE2 binding with a half time of less than 2 min. The reduction in PGE2 binding was completely reversible after removing the dibutyryl cAMP. The reduction in PGE2 binding after addition of dibutyryl cAMP to the intact cells was also observed after a mechanical disruption of the cells or after permeabilization with digitonin. Incubation of the cells with myristoylated PKI(14-22) amide, a specific protein kinase A inhibitor, resulted in partial suppression of the reduction of PGE2 binding by dibutyryl cAMP. Pretreatment of intact cells for 24 h with 10(-6) M PGE2 or a PKC activator did not reduce the specific binding of [3H]-PGE2. These results suggest that PKA, but not PKC, is involved in a fast reversible regulation of the common prostanoid receptor on bovine endothelial cells.
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PMID:Regulation of a common, low-affinity binding site for primary prostanoids on bovine aortic endothelial cells. 956 99

Two voltage-activated calcium currents, a transient T-type and a PL-sustained type, have been measured in isolated, cultured white bass horizontal cells. These two voltage-activated calcium currents were found to be modulated by two independent second-messenger systems. Furthermore, activation of either second-messenger system led to similar changes in calcium current activity. Activation of the cyclic AMP second-messenger pathway or the sn-1,2-diacylglycerol (DAG) second-messenger system resulted in a significant decrease in the amplitude of the transient current and a simultaneous large increase in the amplitude of the sustained current. Both second-messenger systems achieved their effects through protein phosphorylation. The cyclic AMP pathway resulted in the activation of protein kinase A (PKA) and the DAG pathway worked to activate protein kinase C (PKC). Two protein kinase inhibitors were analyzed in this study for their ability to inhibit second-messenger activated protein kinase activity and separate the two pathways. The peptide cyclic AMP-dependent protein kinase inhibitor and staurosporine were found to be nonspecific at high concentrations and inhibited both second-messenger pathways. At low concentrations however, staurosporine specifically inhibited only PKC, whereas adenosine 3',5'-cyclic monophosphate (cAMP)-dependent protein kinase inhibitor was selective for PKA. Both second-messenger systems were activated by the neuromodulator, dopamine. Thus one agonist can initiate multiple second-messenger systems leading to similar changes in voltage-activated calcium current activity. The modulatory action on calcium currents produced by one second-messenger system added to the modulatory action resulting from activation of the other second-messenger system. The effect is to alter the magnitude of the horizontal cell calcium currents.
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PMID:Multiple second-messenger system modulation of voltage-activated calcium currents in teleost retinal horizontal cells. 965 58

In order to examine some possibly misleading conclusions of the pharmacological analysis of the signal transduction pathways of gastric acid secretion, we evaluated various agents including inhibitors of protein kinase C, cyclic AMP-dependent protein kinase, phospholipase C, phospholipase A2, lipoxygenase, casein kinase, calmodulin, myosin light chain kinase, tyrosine kinase, anion exchanger, and protein phosphatase; and activators of protein kinase C. Among them, the cyclic AMP-dependent protein kinase inhibitor N-[2-(p-bromocinnamylamino)ethyl]-5-isoquinolinylsulfonamide (H-89), the phospholipase A2 inhibitor 2-(p-amylcinnamoyl)amino-4-chlorobenzoic acid (ONO-RS-082), three myosin light chain kinase inhibitors (1-(5-iodonaphthalene-1-sulfonyl)-1H-hexahydro-1,4-diazepine (ML-7), 1-(5-chloronaphthalene-1-sulfonyl)-1H-hexahydro-1,4-diazepine (ML-9), and wortmannin), the anion exchanger inhibitor 4,4'-diisothiocyanatostilbene-2,2'-disulfonic acid (DIDS), the phospholipase C inhibitor neomycin, and most known calmodulin antagonists strongly inhibited [14C]aminopyrine accumulation, an indicator of acid secretion, in isolated rabbit gastric glands stimulated by N6,2'-O-dibutyryl-cyclic AMP. ONO-RS-082, calmidazolium, and DIDS inhibited H+,K+-ATPase. Most of the chemicals with antisecretory activity showed protonophore-like activity in gastric microsomes as well as in the mitochondria. It is concluded that H-89, ONO-RS-082, ML-7, ML-9, neomycin, and all calmodulin antagonists tested so far should not be used as tools to analyze gastric acid secretion.
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PMID:Nonspecific effects of the pharmacological probes commonly used to analyze signal transduction in rabbit parietal cells. 998 26

The mechanisms for regulating platelet HDL3 binding sites were investigated. HDL3 binding was rapid (T(1/2) association=4 minutes) and completely reversible (T(1/2) dissociation=14.5 minutes) at 4 degrees C, 22 degrees C, and 37 degrees C, and kinetic analysis yielded forward and reverse constants of 7.3x10(-4) x s(-1) and 7.13x10(3) x s(-1) x M(-1), respectively. Nevertheless, neither inhibitors of binding sites recycling or of pinocytosis, such as ammonium chloride, chloroquine, monensin, colchicine, and sodium azide, modified the binding characteristics. Moreover, when platelets were loaded with cholesterol, binding sites were not regulated (up or down). However, when exposed to high concentrations of HDL3 (1.5 g/L), apoE-free HDL (1.5 g/L), HDL2 (0.5 g/L), apoE-rich HDL (0.5 g/L), and VLDL (0.3 g/L) there was rapid downregulation of the number of binding sites in isolated permeabilized platelets, as shown by the reduction of Bmax to 66%, 58%, 45%, 53%, and 51%, respectively. Downregulation was rapid, reversible, and dose and time dependent. In contrast, LDL (up to 2.0 g/L), IDL (up to 0.1 g/L), and chylomicrons (up to 0.5 g/L) had no effect. Protein kinase C inhibitors (150 nmol/L staurosporine, 100 micromol/L H-7, and 10 nmol/L bisindolylmaleimide) inhibited downregulation up to 62% (as average value). The role of the PKC activation in regulating the activity of HDL3 binding sites also was analyzed by determining the cytosol-to-membrane translocation of enzymatic activity. Downregulation mediated by HDL3 rapidly translocated PKC activity (21% +/- 11 of total PKC activity was membrane-associated in control platelets vs. 55+/-8% in downregulated platelets, mean+/-SEM, n=3). However, agents that block sequestration (0.30 g/L, concanavalin A), and other protein kinase inhibitors, such a cAMP-dependent protein kinase inhibitors (1 micromol/L, PKI), and beta2-adrenergic receptor kinase inhibitors (100 nmol/L, heparin) had no effect. The results show that neither endocytotic response nor cholesterol-dependent mechanisms participate in the modulation of platelet HDL3 binding sites. However, a new regulatory mechanism that involves PKC-dependent downregulation of the number of binding sites may be an important pathway to regulate the thrombogenicity of lipoproteins and their effects on platelet reactivity.
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PMID:Mechanisms for regulating platelet high density lipoprotein type3 binding sites: evidence that binding sites are downregulated by a protein kinase C-dependent mechanism. 1021 79

The PKD1-encoded protein, "polycystin-1", has a large N-terminal extracellular portion, multiple transmembrane domains, and a short intracellular C-terminal tail with four tyrosine residues and two putative sites for serine phosphorylation. Its function in kidney development and autosomal dominant polycystic kidney disease (ADPKD) is still unknown. We have subcloned the cDNA encoding the polycystin-1 C-terminal domain (PKD1-CTD) into a prokaryotic expression vector, and site-directed mutagenesis was performed to target the four tyrosine residues and four serine residues in two putative phosphorylation sites. In vitro phosphorylation assays were conducted on both wild type and mutant PKD1-CTD fusion proteins. It was found that the wild type PKD1-CTD and all mutant fusion proteins, except S4251G/S4252G, could be phosphorylated by lysates from cultured normal human renal collecting tubule (NHCT) cells, as well as by commercially purified cAMP-dependent protein kinase (PKA). The phosphorylation of the PKD1-CTD fusion protein by NHCT lysates was greatly enhanced by cAMP and its analog 8-Br-cAMP, and inhibited by the specific PKA inhibitors PKI(6-22) and H-89. Activators and inhibitors of protein kinase C (PKC) had no effects on the phosphorylation of the PKD1-CTD fusion protein. Using commercially purified pp60(c-src) (c-src) it was also shown that the PKD1-CTD fusion protein could be phosphorylated by c-src in vitro, and that this phosphorylation could be abolished by a mutation Y4237F. By comparing the amino acid sequence at 4249-4253 (RRSSR) with the consensus sequence for PKA phosphorylation (RRXSX), we suggest that the serine residue at 4252 is the target of phosphorylation by a cAMP-dependent protein kinase in NHCT cell lysates. In addition, we suggest that Y4237 might be phosphorylated by c-src in living cells.
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PMID:Identification of phosphorylation sites in the PKD1-encoded protein C-terminal domain. 1036 14

Leukotriene D4 (LTD4) is one of the slow-reacting substances of anaphylaxis and is reported to have a diverse response including the mediation of glomerular nephritis. However, little is known about the functions of LTD4 and its mechanisms of action in primary cultured rabbit renal proximal tubular cells (PTCs). The purpose of this study is to investigate the effect of LTD4 on Na+ uptake and its related signal transduction pathways in PTCs. LTD4 (>10(-9) M) significantly inhibited the Na+ uptake after 15 min (in nmol/mg protein: controls 431.7+/-11.4 vs. LTD4 (10(-9) M) 355.0+/-23.6; p<0. 05); and its effect was blocked by MK-571 (10(-6) M), a leukotriene receptor antagonist, in PTCs. Preincubation with cilastatin, a renal dipeptidase inhibitor, and polyclonal antibody against renal dipeptidase potentiated the inhibitory effect of LTD4 on Na+ uptake. SQ 22536 (10(-6) M), an adenylate cyclase inhibitor, and the myristoylated protein kinase A inhibitor amide 14-22 (PKI; 10(-5) M) blocked the effect of LTD4 on Na+ uptake (in nmol/mg protein: LTD4 349.9+/-18.5 vs. SQ 22536+LTD4 476.5+/-22.0 and PKI+LTD4 440.3+/-19. 3; p<0.05), and LTD4 induced an increase in cyclic adenosine monophosphate (cAMP), suggesting the involvement of cAMP in the inhibition of Na+ uptake. In addition, U 73122 (10(-6) M) and neomycin (10(-4) M), phospholipase C (PLC) inhibitors, W-7 (10(-4) M), a calmodulin antagonist, and bisindolylmaleimide I, a protein kinase C (PKC) inhibitor, blocked the LTD4-induced inhibition of Na+ uptake, strongly suggesting involvement of the PLC-PKC signal pathways in the effect of LTD4. LTD4 significantly increased [Ca2]i by 49+/-7% as compared with baseline. TMB-8 (10(-5) M) and BAPTA/AM (10(-5) M), intracellular calcium mobilization blockers, completely blocked the LTD4-induced inhibition of Na+ uptake (in nmol/mg protein: LTD4 347.6+/-19.0 vs. TMB-8+LTD4 436.4+/-22.3 and BAPTA/AM+LTD4 419.9+/-14.3; p<0.05); however, EGTA (1 mM), a calcium chelator, partially blocked the LTD4-induced inhibition of Na+ uptake. In conclusion, LTD4-induced inhibition of Na+ uptake may be involved in both cAMP and PLC-PKC signal pathways in PTCs. In addition, Ca2+, which comes from the intracellular Ca2+ mobilization, is primarily responsible for the LTD4-induced inhibition of Na+ uptake.
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PMID:Leukotriene D4 inhibits Na+ uptake through cAMP and PLC pathways in primary cultured renal proximal tubular cells. 1039 8

1. Whole-cell voltage-gated K+ currents and the K+ current response to growth hormone-releasing hormone (GHRH) were characterised in primary cultures of human acromegalic somatotropes. 2. Both delayed rectifier (IK) and transient (IA) K+ currents were recorded from human somatotropes held at -80 mV and bathed in a solution containing Cd2+ (1 mM), TTX (1 microM) and a low concentration of Ca2+ (0.5 mM). Only IK was recorded, however, when a holding potential of -40 mV was used. 3. GHRH (10 nM) immediately and significantly reduced the amplitude of both IA and IK. While the reduction in the amplitude of IA was fully reversed following the removal of GHRH, the amplitude of IK had only partially recovered 10 min after GHRH removal. In addition, GHRH shifted the voltage-dependent inactivation curve of IA by 13.5 mV in the negative direction. 4. In a low Ca2+ and Cd2+-containing solution, the Ca2+-activated K+ channel blockers apamin (100 nM and 1 microM) and charybdotoxin (1 microM) did not alter K+ currents or the effect of GHRH on the recorded K+ currents. 5. The whole-cell K+ currents and their responses to GHRH were unaffected by the application of 8-bromo-cAMP (100 microM), Rp-cAMP (100 microM) or the protein kinase A (PKA) inhibitor H89 (1 microM). In addition, intracellular dialysis of the PKA inhibitory peptide PKI (10 microM) had no effect on the K+ current response to GHRH. 6. While the application of protein kinase C (PKC) inhibitors calphostin C (100 nM) or chelerythrine (1 microM) did not affect the amplitude of the K+ currents, the K+ current response to GHRH was significantly attenuated. Downregulation of PKC with phorbol 12,13-dibutyrate (PDBu, 0.5 microM for 16 h) also abolished the K+ current response to GHRH. In addition, intracellular dialysis of somatotropes with the PKC inhibitory peptide PKC19-36 (1 microM) prevented the GHRH-induced decrease in the amplitude of the voltage-gated K+ currents. Local application of PDBu (1 microM) significantly reduced the amplitude of the voltage-gated K+ currents in a similar manner to that induced by GHRH, but without clear recovery upon removal. 7. This study demonstrates that GHRH decreases voltage-gated K+ currents via a PKC-mediated pathway in human adenoma somatotropes, rather than by the cAMP-PKA pathway that is usually implicated in the actions of GHRH.
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PMID:Human GHRH reduces voltage-gated K+ currents via a non-cAMP-dependent but PKC-mediated pathway in human GH adenoma cells. 1054 37

We determined the effect of nucleotides and protein kinase A (PKA) on the Ca(2+)-dependent gating of the cloned intermediate conductance, Ca(2+)-dependent K(+) channel, hIK1. In Xenopus oocytes, during two-electrode voltage-clamp, forskolin plus isobutylmethylxanthine induced a Ca(2+)-dependent increase in hIK1 activity. In excised inside-out patches, addition of ATP induced a Ca(2+)-dependent increase in hIK1 activity (NP(o)). In contrast, neither nonhydrolyzable (AMP-PNP, AMP-PCP) nor hydrolyzable ATP analogs (GTP, CTP, UTP, and ITP) activated hIK1. The ATP-dependent activation of hIK1 required Mg(2+) and was reversed by either exogenous alkaline phosphatase or the PKA inhibitor PKI(5-24). The Ca(2+) dependence of hIK1 activation was best fit with a stimulatory constant (K(s)) of 350 nM and a Hill coefficient (n) of 2.3. ATP increased NP(o) at [Ca(2+)] >100 nM while having no effect on K(s) or n. Mutation of the single PKA consensus phosphorylation site at serine 334 to alanine (S334A) had no effect on the PKA-dependent activation during either two-electrode voltage-clamp or in excised inside-out patches. When expressed in HEK293 cells, ATP activated hIK1 in a Mg(2+)-dependent fashion, being reversed by alkaline phosphatase. Neither PKI(5-24) nor CaMKII(281-309) or PKC(19-31) affected the ATP-dependent activation. Northern blot analysis revealed hIK1 expression in the T84 colonic cell line. Endogenous hIK1 was activated by ATP in a Mg(2+)- and PKI(5-24)-dependent fashion and was reversed by alkaline phosphatase, whereas CaMKII(281-309) and PKC(19-31) had no effect on the ATP-dependent activation. The Ca(2+)-dependent activation (K(s) and n) was unaffected by ATP. In conclusion, hIK1 is activated by a membrane delimited PKA when endogenously expressed. Although the oocyte expression system recapitulates this regulation, expression in HEK293 cells does not. The effect of PKA on hIK1 gating is Ca(2+)-dependent and occurs via an increase in NP(o) without an effect on either Ca(2+) affinity or apparent cooperativity.
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PMID:Kinase-dependent regulation of the intermediate conductance, calcium-dependent potassium channel, hIK1. 1061 55

Modulation of postsynaptic AMPA receptors in the brain by phosphorylation may play a role in the expression of synaptic plasticity at central excitatory synapses. It is known from biochemical studies that GluR1 AMPA receptor subunits can be phosphorylated within their C terminal by cAMP-dependent protein kinase A (PKA), which is colocalized with the phosphatase calcineurin (i.e., phosphatase 2B). We have examined the effect of PKA and calcineurin on the time course, peak open probability (P(O, PEAK)), and single-channel properties of glutamateevoked responses for neuronal AMPA receptors and homomeric GluR1(flip) receptors recorded in outside-out patches. Inclusion of purified catalytic subunit Calpha-PKA in the pipette solution increased neuronal AMPA receptor P(O,PEAK) (0.92) compared with recordings made with calcineurin included in the pipette (P(O,PEAK) 0.39). Similarly, Calpha-PKA increased P(O,PEAK) for recombinant GluR1 receptors (0. 78) compared with patches excised from cells cotransfected with a cDNA encoding the PKA peptide inhibitor PKI (P(O,PEAK) 0.50) or patches with calcineurin included in the pipette (P(O,PEAK) 0.42). Neither PKA nor calcineurin altered the amplitude of single-channel subconductance levels, weighted mean unitary current, mean channel open period, burst length, or macroscopic response waveform for recombinant GluR1 receptors. Substitution of an amino acid at the PKA phosphorylation site (S845A) on GluR1 eliminated the PKA-induced increase in P(O,PEAK), whereas the mutation of a Ca(2+), calmodulin-dependent kinase II and PKC phosphorylation site (S831A) was without effect. These results suggest that AMPA receptor peak response open probability can be increased by PKA through phosphorylation of GluR1 Ser845.
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PMID:Control of GluR1 AMPA receptor function by cAMP-dependent protein kinase. 1062 85

1. In this study, the effect of 17beta-oestradiol on adenosine 3' : 5'-cyclic monophosphate (cyclic AMP)-dependent protein kinase (PKA) activity was investigated. 2. Rapid (within 15 min) activation of basal PKA activity was observed in cytosolic fractions by 17beta-oestradiol but not by 17alpha-oestradiol, progesterone or testosterone. This stimulation was abolished by the specific PKA inhibitor PKI but not by the classical oestrogen receptor antagonist tamoxifen. 3. 17beta-Oestradiol did not stimulate basal PKA activity in membrane fractions or in cytosolic fractions from male rats. 4. The increase in cytosolic PKA activity was indirect as (i) it was inhibited by the adenylyl cyclase inhibitor SQ22536, (ii) it was mimicked by forskolin and (iii) 17beta-oestradiol did not cause a stimulation of basal PKA activity in either type I or type II commercially available PKA holoenzymes. 5. Protein kinase Cdelta (PKCdelta) was directly activated by 17beta-oestradiol. The specific PKC inhibitor, bisindolylmaleimide I (GF 109203X), abolished the 6. 17beta-oestradiol-induced PKA activation. 17beta-Oestradiol stimulate an increase in free intracellular calcium ion concentration ([Ca(2+)](i)) in isolated female but not male rat colonic crypts. This was inhibited by verapamil, nifedipine and zero extracellular [Ca(2+)] but unaffected by tamoxifen. 17alpha-Oestradiol, testosterone and progesterone failed to increase [Ca(2+)](i). 7. PKC and PKA inhibitors abolished the 17beta-oestradiol-induced increase in [Ca(2+)](i). 8. These results demonstrate the existence of a novel 17beta-oestradiol-specific PKA and Ca(2+) signalling pathway, which is both sex steroid- and gender-specific, in rat distal colonic epithelium.
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PMID:Rapid non-genomic activation of cytosolic cyclic AMP-dependent protein kinase activity and [Ca(2+)](i) by 17beta-oestradiol in female rat distal colon. 1074 93

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