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)

Effects of parathyroid hormone substance (PTH) on the voltage-activated calcium current (ICa) were studied on intracellularly perfused neurones of the snail, Helix pomatia, under voltage-clamp conditions. Application of 0.1 nM PTH produced a marked potentiation of the current. The effect developed slowly (60-70 min) and remained after removal of PTH. Potentiation could be observed in most neurones, but varied considerably from cell to cell; in some neurones ICa was increased 2- to 3-fold. Addition of ethylenebis(oxonitrilo)tetraacetate (EGTA, 10 mM) to, or removal of adenosine 5'-triphosphate (ATP, 2 mM) from the intracellular perfusing solution resulted in a suppression or attenuation of the potentiating effect. The effect could be reproduced by the synthetic 1-34 amino acid fragment of PTH. Extracellularly applied protein kinase-C (PK-C) activator phorbol ester phorbol 12-myristate 13-acetate (PMA, 0.1-10 microM) produced a similar slow increase in ICa (up to 1.5- to 2-fold), while its inactive analogue (4 alpha-phorbol ester) had no effect on ICa. The effects of PTH and PMA were not additive. PK-C inhibitors [1-(5-isoquinoline-sulphonyl)-2-methylpiperazine hydrochloride] (H-7, 100 microM) and staurosporine (100 microM) as well as calcium channel antagonists Cd2+, verapamil, nifedipine and nimodipine depressed the effect of PTH. The chloride channel blocker 4,4'-diisothiocyanato-stilbene-2,2'-disulphonic acid (DIDS, 1 mM) did not affect the potentiating action of PTH. Activation of the adenylate cyclase system also potentiated ICa in some neurones, but this effect had a different time course and was additive to the effect of PTH.2=
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PMID:Parathyroid hormone enhances calcium current in snail neurones--simulation of the effect by phorbol esters. 132 Feb 49

Retrovirus-mediated transfection of cDNA for the cystic fibrosis (CF) gene into the CF pancreatic cell line, CFPAC-1, confers adenosine 3',5'-cyclic monophosphate (cAMP)-dependent regulation of Cl conductance. We used patch-clamp techniques to identify the single-channel basis of this conductance pathway and to study its properties. Forskolin or cAMP activated Cl channels with a conductance of 9 +/- 1 pS in 26 of 62 cell-attached patches of cystic fibrosis transmembrane conductance regulator (CFTR)-transfected CFPAC-1 cells. The current-voltage (I-V) relation showed slight outward rectification (chord conductance of 10 +/- 2 pS at +80 mV vs. 7 +/- 1 pS at -80mV) with high Cl concentrations (170 mM) in the pipette solution. Channel kinetics were voltage sensitive, with longer openings at positive clamp voltages. Channel properties were unaffected by the substitution of N-methyl-D-glucamine for pipette Na or by the addition of disulfonic stilbenes (100 microM DNDS or DIDS) to the pipette. The channels usually inactivated within seconds of patch excision, but in three of nine patches, activity could be maintained by addition of the catalytic subunit of protein kinase A and ATP. With equal Cl concentrations on both membrane surfaces, the single-channel I-V relation was linear, suggesting that the outward rectification of the cell-attached channel is due to a pipette-to-cell Cl gradient. Anion substitution on the extracellular side of the membrane indicates a halide permselectivity of Br approximately Cl greater than I.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:cAMP-activated Cl channels in CFTR-transfected cystic fibrosis pancreatic epithelial cells. 137 32

A chloride-selective channel has been found using patch-clamp electrophysiology in human skin fibroblasts and it exhibits many of the biophysical properties of the Cl- channel found in airway epithelia. As in the case of epithelial Cl- channels, Cl- channels in fibroblasts are activated at depolarized membrane potentials in excised patches, rectifying in an outward direction with a unit conductance of 33 pS at 0 mV. Furthermore, the agonists forskolin and prostaglandin E2 evoke Cl- channel activity in cell-attached patches. The effect of these agonists can be mimicked by direct application of catalytic subunit of protein kinase A with ATP and Mg2+ to the internal membrane surface of excised, inside-out patches. The Cl- channel is also sensitive to inhibition by the stilbene derivative, DIDS. These results indicate that fibroblasts may provide a convenient and available model for the study of epithelial Cl- channel regulation and accelerate efforts to determine the regulatory defect expressed in cystic fibrosis.
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PMID:Phosphorylation-activated chloride channels in human skin fibroblasts. 245 64

A low-conductance Cl- channel has been identified in the apical membrane of the human pancreatic duct cell Capan-1 using patch-clamp techniques. Cell-attached channels were activated by the vasoactive intestinal polypeptide (VIP, 0.1 mumol/l), dibutyryl-adenosine 3',5'-cyclic monophosphate (db-cAMP, 1 mmol/l), 8-bromo adenosine 3',5'-cyclic monophosphate (8-Br-cAMP, 1 mmol/l), 3-isobutyl-1-methyl-xanthine (IBMX, 100 mumol/l) and forskolin (10 mumol/l). No channel activity was observed in non-stimulated control cells. In both cell-attached and excised inside-out patches, the channel had a linear current/voltage relationship and a unitary conductance of 9 pS at 23 degrees C and 12 pS at 37 degrees C. Its opening probability was not voltage dependent although pronounced flickering was induced at negative potentials. Anionic substitution led to the selectivity sequence Cl- > I- >> > HCO3- > gluconate. In inside-out excised patches, the channel activity declined spontaneously within a few minutes. Reactivation of silent excised channels was achieved by adding protein kinase A (PKA, in the presence of ATP, cAMP and Mg2+). Conversely, active channels were silenced in the presence of alkaline phosphatase. The PKA-activated Cl- channel was 4,4'-diisothiocyanatostilbene-2,2'-disulphonic acid (DIDS, 100 mumol/l) and 4-acetamido-4'-isothiocyanatostilbene-2,2'-disulphonic acid (SITS, 100 mumol/l) insensitive, but was blocked by diphenylamine-2-carboxylic acid (DPC, 100 mumol/l). These results demonstrate that the apical low-conductance Cl- channel in Capan-1 is regulated on-cell by VIP receptors via cAMP and off-cell by PKA and phosphatases.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Phosphorylation-regulated low-conductance Cl- channels in a human pancreatic duct cell line. 750 13

Our laboratory has developed a protocol for the isolation of a 140-kDa protein that forms an anion-selective channel when reconstituted into planar lipid bilayers. Polyclonal antibodies have been raised against the 38-kDa component of this purified protein. This channel has a linear current-voltage relationship and is not activated by protein kinase A (PKA) plus ATP. Using the same antibody and a modified purification protocol (eliminating the ion exchange chromatography steps), we isolated and reconstituted two other anion channels from tracheal membrane vesicles. In vitro phosphorylation of these isolated proteins by PKA and ATP revealed four bands migrating at 52, 85, 120, and 174 kDa. Immunoprecipitation experiments with anti-CFTR antibodies indicate that the 174-kDa phosphoprotein was CFTR. Upon incorporation of these isolated proteins into planar bilayers, an anion channel that exhibited a marked outward rectification in symmetrical Cl- solutions with a slope conductance of 82 pS at depolarizing voltages was observed. PKA and ATP increased channel activity but only from one side of the bilayer. However, channel activity was unaffected by addition of ATP alone from either side of the membrane. DIDS (100 microM) applied to the opposite side of the bilayer to which PKA and ATP act, blocked channel activity. A linear anion-selective channel with a conductance of 16 pS could be also resolved after inhibition of the outwardly rectified anion channel by DIDS in the presence of PKA and ATP. This small conductance channel was inhibited by 300 microM diphenylamine-2-carboxylic acid. Immunodepletion of the 174-kDa phosphoprotein from the preparation prevented activation of the 82-pS outwardly rectified anion channel by PKA and ATP. However, the PKA-dependent in vitro phosphorylation of the 52-, 85-, and 120-kDa phosphoproteins was unaffected by the absence of CFTR. Our results suggest a direct regulatory relationship between an outwardly rectified anion channel and CFTR.
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PMID:Cystic fibrosis transmembrane conductance regulator is required for protein kinase A activation of an outwardly rectified anion channel purified from bovine tracheal epithelia. 753 Feb 44

The oxalate transport system along with protein phosphorylation appears to be deranged in stone formers. This study was undertaken to characterize in LLC-PK1 cells in culture the effect of altering specific intracellular second messenger systems on oxalate uptake. Cellular uptake experiments were performed at 37 degrees C in buffer [265 mM mannitol, 5 mM NaOH, 5 mM KOH, 10 mM Ca-EGTA, 25 mM HEPES/TRIS, pH = 7.4 or in Hank's balanced salt solution (HBSS)] containing 200 microM labeled oxalate (1-14C, 0.3 microCi). Cells were preincubated with DAG (final concentration of 100 microM), phorbol myristate acetate (10 microM), forskolin (50 microM), 8-bromo-cyclic AMP (50 microM), trifluoroperazine (20 microM) and low molecular weight heparin (1 mg/ml) for 10 min in the presence and absence of the anion transport inhibitor DIDS (100 microM) and the effect(s) on oxalate uptake at 10, 25 and 45 min incubation were determined. Chemicals (DAG, forskolin, TPA and 8-bromo-cAMP) which stimulate protein kinase A or C activity resulted in an increased uptake of oxalate while inhibitors of these systems (trifluoroperazine and low molecular weight heparin) resulted in decreased oxalate uptake. The results demonstrate that oxalate uptake in renal tubular cells is modulated by protein kinase C and A dependent mechanisms.
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PMID:Effect of second messenger systems on oxalate uptake in renal epithelial cells. 767 38

We have used whole-cell and perforated patches to study ionic currents induced by hypotonic extracellular solutions (HTS, 185 mOsm instead of 290 mOsm) in endothelial cells from human umbilical veins. These currents activated within 30-50 s after application of HTS, reached a maximum value after approximately 50-150 s and recovered completely after re-exposing the cells to normal osmolarity. They slowly inactivated at potentials positive to +50 mV. The same current was also activated by breaking into endothelial cells with a hypertonic pipette solution (377 mOsm instead of 290 mOsm). The reversal potential of these volume-induced currents using different extracellular and intracellular Cl- concentrations was always close to the Cl(-)-equilibrium potential. These currents are therefore mainly carried by Cl-. DIDS only weakly blocked the current (KI = 120 microM), while another Cl(-)-channel blocker, DCDPC (20 microM) was ineffective. We were unable to record single channel activity in cell-attached patches but we always observed an increased current variance during HTS. From the mean current-variance relation of the whole-cell current records, we determined a single channel conductance of 1.1 pS. The size and kinetics of the current were not correlated with the concomitant changes in intracellular calcium. Furthermore, the currents could still be activated in the presence of 10 mmol/liter intracellular EGTA and are thus Ca2+ independent. A similar current was also activated with iso-osmotic pipette solutions containing 300 mumol/liter GTP gamma S. Neomycin (1 mmol/liter), a blocker of PLC, did not prevent activation of this current. TPA (4 mumol/liter) was also ineffective in modulation of this current. The HTS-induced current was completely blocked by 10 mumol/liter pBPB, a PLA2 inhibitor. NDGA (4 mumol/liter) and indomethacin (5 mumol/liter), blockers of lipoxygenase and cyclo-oxygenase respectively, did however not affect the current induced by hypotonic solutions. The effects of arachidonic acid (10 mumol/liter) were variable. In 12 out of 40 cells it either directly activated a Cl- current or potentiated the current activated by HTS. The membrane current was decreased at all potentials in 18 cells, and was not affected in 10 cells. The HTS-induced currents may therefore be modulated by cleavage products of PLA2, but not by messengers downstream of arachidonic acid. Loading the cells with a segment of the heat stable protein kinase A inhibitor PKI (5-24) did not prevent activation of the HTS-induced current.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Activation of a Cl- current by hypotonic volume increase in human endothelial cells. 791 85

Transepithelial and cell membrane potential measurements have suggested that the basolateral membrane of gerbil vestibular dark cells contains Cl- conductive pathways. We used the patch clamp technique to search this membrane for Cl- conductive channels which could account for the macroscopic observations. Two types of Cl- channel were found in both cell-attached and excised membrane patches. One type was found with an incidence of 19% and had a single-channel conductance of 95 +/- 1 pS (N = 20) in symmetrical Cl- solutions. The other type was found with an incidence of 3% and had a large single-channel conductance of 360 +/- 11 pS (N = 12) in symmetrical Cl- solutions (LC-type Cl- channel). Both types of Cl- channel had linear current-voltage relations and at least 2 substates. In asymmetrical Cl- solutions (gluconate substitution) the current-voltage relations fit the Goldman-Hodgkin-Katz current equation for Cl-. Neither channel was blocked by Zn2+, NPPB, DIDS, DNDS or quinine. The 95 pS channel exhibited a spontaneous 'rundown' of its activity within 1 to 10 min after being excised. This rundown was not reversed by the catalytic subunit of protein kinase A. Channel activity was not dependent on the presence of cytosolic Ca2+ nor markedly altered by variations in cytosolic pH between 6.5 and 8.0. The two Cl- channels were distinguished by the membrane voltage ranges in which they were active and by their anion selectivity. The open probability of the 95 pS channel was insensitive to voltage and the anions NO3-, I- and Br- were only half as permeable as Cl-. By contrast, the LC-type Cl- channel was mostly active between about +/- 30 mV and equally permeable to NO3-, I-, Br- and Cl-. The 95 pS Cl- channel may account for the observed transepithelial and intracellular voltage responses to Cl- concentration steps and provide the path for the recirculation of Cl- across the basolateral membrane. The LC-type Cl- channel shows the same lack of anion discrimination as the anion pathway activated during hyposmotic challenge.
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PMID:Two types of chloride channel in the basolateral membrane of vestibular dark cells. 822 32

Elevation of intracellular cAMP levels in Necturus gallbladder epithelium (NGB) induces an apical membrane Cl- conductance (GaCl). Its characteristics (i.e., magnitude, anion selectivity, and block) were studied with intracellular microelectrode techniques. Under control conditions, the apical membrane conductance (Ga) was 0.17 mS.cm-2, primarily ascribable to GaK. With elevation of cell cAMP to maximum levels, Ga increased to 6.7 mS.cm-2 and became anion selective, with the permeability sequence SCN- > NO3- > I- > Br- > Cl- >> SO4(2-) approximately gluconate approximately cyclamate. GaCl was not affected by the putative Cl- channel blockers Cu2+, DIDS, DNDS, DPC, furosemide, IAA-94, MK-196, NPPB, SITS, verapamil, and glibenclamide. To characterize the cAMP-activated Cl- channels, patch-clamp studies were conducted on the apical membrane of enzyme-treated gallbladders or on dissociated cells from tissues exposed to both theophylline and forskolin. Two kinds of Cl- channels were found. With approximately 100 mM Cl- in both bath and pipette, the most frequent channel had a linear current-voltage relationship with a slope conductance of approximately 10 pS. The less frequent channel was outward rectifying with slope conductances of approximately 10 and 20 pS at -40 and 40 mV, respectively. The Cl- channels colocalized with apical maxi-K+ channels in 70% of the patches. The open probability (Po) of both kinds of Cl- channels was variable from patch to patch (0.3 on average) and insensitive to [Ca2+], membrane voltage, and pH. The channel density (approximately 0.3/patch) was one to two orders of magnitude less than that required to account for GaCl. However, addition of 250 U/ml protein kinase A plus 1 mM ATP to the cytosolic side of excised patches increased the density of the linear 10-pS Cl- channels more than 10-fold to four per patch and the mean Po to 0.5, close to expectations from GaCl. The permeability sequence and blocker insensitivity of the PKA-activated channels were identical to those of the apical membrane. These data strongly suggest that 10-pS Cl- channels are responsible for the cAMP-induced increase in apical membrane conductance of NGB epithelium.
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PMID:cAMP-activated apical membrane chloride channels in Necturus gallbladder epithelium. Conductance, selectivity, and block. 822 7

Activation of Ca2+ and cAMP-dependent Cl- conductances by extracellular ATP was studied using the whole-cell patch clamp technique. Immediately after addition of extracellular ATP (10 microM), activation of whole-cell Cl- current exhibiting delayed inactivation and activation kinetics at hyperpolarizing and depolarizing voltages, respectively, was observed. After prolonged activation, the kinetic characteristics of the ATP-induced Cl- current became time- and voltage-independent. When applied to the later phase of the ATP-activated whole-cell current, the disulfonic acid stilbene DIDS (200 microM) could only inhibit 64% of the current while diphenylamine-dicarboxylic acid (DPC, 1 mM) completely inhibited it. Inclusion of a peptide inhibitor for protein kinase A (PKI, 10 nM) in the pipette solution blocked ATP-induced time- and voltage-independent current activation but did not affect the delayed activating and inactivating current activation but did not affect the delayed activating and inactivating current which could be totally blocked by DIDS. Anion selectivity sequence was determined in the presence of either PKI or DIDS and found to be significantly different. Increased pipette EGTA (10 mM) or treatment of the cells with trifluoperazine (40 microM), an inhibitor of calmodulin, suppressed both types of ATP-induced Cl- currents. No current activation by ATP was observed when cells were dialyzed with the IP3 receptor blocker, heparin (10 ng/ml). These results suggest that extracellular ATP activates IP3-linked Ca(2+)-dependent regulatory pathway, which in turn activates cAMP-dependent pathway, leading to activation of both Ca2+ and cAMP-dependent Cl- conductances in epididymal cells.
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PMID:Extracellular ATP activates both Ca(2+)- and cAMP-dependent Cl- conductances in rat epididymal cells. 856 54

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