EC:3.6.1.3 - FACTA Search

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Query: EC:3.6.1.3 (ATPase)
65,361 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In bovine adrenal medullary cells, we reported that 22Na+ influx via nicotinic receptor-associated Na+ channels is involved in 45Ca2+ influx, a requisite for initiating the secretion of catecholamines (Wada et al. 1984, 1985 b). In the present study, we investigated whether the inhibition of Na+-pump modulates carbachol-induced 22Na+ influx, 45Ca2+ influx and catecholamine secretion in cultured bovine adrenal medullary cells. We also measured 86Rb+ uptake by the cells to estimate the activity of Na+,K+-ATPase. Ouabain and extracellular K+ deprivation remarkably potentiated carbachol-induced 22Na+ influx, 45Ca2+ influx and catecholamine secretion; this potentiation of carbachol-induced 45Ca2+ influx and catecholamine secretion was not observed in Na+ free medium. Carbachol increased the uptake of 86Rb+; this increase was inhibited by hexamethonium and d-tubocurarine. In Na+ free medium, carbachol failed to increase 86Rb+ uptake. Ouabain inhibited carbachol-induced 86Rb+ uptake in a concentration-dependent manner, as it increased the accumulation of cellular 22Na+. These results suggest that Na+ influx via nicotinic receptor-associated Na+ channels increases the activity of Na+,K+-ATPase and the inhibition of Na+,K+-ATPase augmented carbachol-induced Ca2+ influx and catecholamine secretion by potentiating cellular accumulation of Na+. It seems that nicotinic receptor-associated Na+ channels and Na+,K+-ATPase, both modulate the influx of Ca2+ and secretion of catecholamines by accommodating cellular concentration of Na+.
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PMID:Inhibition of Na+-pump enhances carbachol-induced influx of 45Ca2+ and secretion of catecholamines by elevation of cellular accumulation of 22Na+ in cultured bovine adrenal medullary cells. 242 3

Stimulation-induced changes in Cl- content and O2 consumption of collagenase-isolated rat parotid acini were measured. In less than 10 s, carbachol caused a net Cl- efflux, corresponding to approximately 50% of the Cl- content, and increased the O2 uptake by 100%. The increase was inhibitable by ouabain and was dependent on the presence of extracellular Ca2+. Furosemide reduced the unstimulated 36Cl- uptake and prevented the reuptake of Cl- after carbachol-induced release. This suggests that a cotransport system is operating in both the unstimulated and stimulated states. Furthermore, furosemide inhibited the stimulated ouabain-sensitive O2 uptake. Raising intracellular Ca2+ by the calcium ionophore A23187 evoked the same pattern of Cl- loss and O2 uptake as carbachol. Our results are compatible with the following hypothesis. Carbachol raises intracellular Ca2+, causing an increased Cl- permeability of the luminal membrane, resulting in a net Cl- efflux. A subsequently enhanced influx of Cl- and Na+ via a furosemide-sensitive cotransport system increases intracellular Na+. This stimulates the Na+-K+-ATPase and thereby the O2 consumption.
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PMID:Effects of Ca2+ and furosemide on Cl- transport and O2 uptake in rat parotid acini. 242 56

The mechanism by which 12-o-tetradecanoylphorbol-13-acetate (TPA) desensitizes carbachol mobilization of glucose-incorporated calcium (Ca2+) was studied in clonal insulin-releasing cells (RINm5F) using colour indicators and dual wavelength spectrophotometry. The net uptake of Ca2+ stimulated by 20 mM glucose reached saturation after 19 +/- 2 min when it corresponded to 1.21 +/- 0.09 mmol calcium kg-1 protein. Carbachol then induced a release of 0.21 +/- 0.03 mmol calcium kg-1 protein. Half of the remaining Ca2+ was liberated by antimycin A and the rest with the Ca2+ ionophore A-23187. When 0.1 microM TPA was added initially, the cells lost 0.29 +/- 0.08 mmol calcium kg-1 protein within 10 min. The subsequent addition of glucose resulted in a sluggish uptake of only 0.58 +/- 0.09 mmol calcium kg-1 protein reaching equilibrium after 35 +/- 3 min. Carbachol now failed to induce any Ca2+ release. The actions of TPA were essentially unchanged by previous exposure to glucose, removal of Na+ from the medium and even when some of the glucose-incorporated Ca2+ had been liberated with carbachol. The results indicate that TPA desensitization of carbachol-induced mobilization of Ca2+ in the RINm5F cells is due to the disappearance of Ca2+ from the sensitive pool, an effect which may depend on stimulated extrusion of Ca2+ from the cells by the (Ca2+-Mg2+)-ATPase.
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PMID:Phorbol ester desensitization of clonal insulin-releasing cell response to carbachol involves depletion of an intracellular calcium pool. 264 51

A plasmalemmal enriched membrane fraction, prepared from pig stomach smooth-muscle, contains a calmodulin-stimulated (Ca2+ + Mg2+)-ATPase and presents an ATP-dependent 45Ca-uptake. If these smooth-muscle strips are preincubated with 10(-3) M-carbachol, this Ca2+ + Mg2+)-ATPase and the 45Ca-uptake are reduced by 21.4% and 13.5%, respectively, as compared to controls. This inhibitory effect of carbachol can be completely blocked by atropine. Carbachol does neither affect the passive permeability of the microsomes to 45Ca, nor the passive 45Ca-binding to the vesicles. Neither does it exert an effect on the proportion of closed inside-out plasma-membrane vesicles. Likewise, preincubation of rat myometrium with 90 nM-oxytocin induces a 20.4% inhibition of the ATP-dependent 45Ca-uptake, without having an effect on the passive 45Ca-binding, the permeability to 45Ca or the sideness of the vesicles. From these results, it is concluded that some agonists as carbachol and oxytocin induce a decrease in the activity of the plasmalemmal Ca2+-pump.
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PMID:Carbachol partially inhibits the plasma-membrane Ca2+-pump in microsomes from pig stomach smooth muscle. 296 29

A population of gastric membrane vesicles of high K+ permeability and of lower density than endoplasmic tubulovesicles containing (H+-K+)-ATPase was detected in gastric mucosal microsomes from the rat fasted overnight. The K+-transport activity as measured with 86RbCl uptake had a Km for Rb+ of 0.58 +/- 0.11 mM and a Vmax of 13.7 +/- 1.9 nmol/min X mg of protein. The 86Rb uptake was reduced by 40% upon substituting Cl- with SO2-4 and inhibited noncompetitively by ATP and vanadate with a Ki of 3 and 30 microM, respectively; vanadate also inhibited rat gastric (H+-K+)-ATPase but with a Ki of 0.03 microM. Carbachol or histamine stimulation decreased the population of the K+-permeable light membrane vesicles, at the same time increased K+-transport activity in the heavy, presumably apical membranes of gastric parietal cells, and enabled the heavy microsomes to accumulate H+ ions in the presence of ATP and KCl without valinomycin. The secretagogue-induced shift of K+ permeability was blocked by cimetidine, a H2-receptor antagonist. Four characteristics of the K+ permeability as measured with 86RbCl were common in the resting light and the carbachol-stimulated heavy microsomes; (a) Km for +Rb, (b) anion sensitivity (Cl- greater than SO2-4), (c) potency of various divalent cations (Hg2+, Cu2+, Cd2+, and Zn2+) to inhibit Rb+ uptake, and (d) inhibitory effect of ATP, although the nucleotide sensitivity was latent in the stimulated heavy microsomes. The Vmax for 86RbCl uptake was about 10 times greater in the resting light than the stimulated heavy microsomes. These observations led us to propose that secretagogue stimulation induces the insertion of not only the tubulovesicles containing (H+-K+)-ATPase, but also the light membrane vesicles containing KCl transporter into the heavy apical membranes of gastric parietal cells.
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PMID:Studies on K+ permeability of rat gastric microsomes. 299 Dec 47

This study examined the changes in protein phosphorylation in response to cholinergic (muscarinic) stimulation of salivary secretion in the rat submandibular gland. Carbachol stimulation was associated with phosphorylation in a number of protein bands as detected by sodium dodecyl sulfate (SDS) polyacrylamide gel electrophoresis and autoradiography. The molecular masses (Mr) of two proteins, in which the amount of phosphorylation more than doubled in response to carbachol, were 22,000 and 96,000. The Mr 96,000 protein precipitated at 120,000 X g while most of the Mr 22,000 protein remained in the supernatant at this speed. The effect of carbachol on the phosphorylation of the Mr 22,000 and 96,000 proteins was blocked by atropine, indicating that the cholinergic receptor involved is muscarinic. The time course of phosphorylation of the Mr 22,000 protein consisted of a rapid increase in phosphorylation within the first min of carbachol stimulation. This increased phosphorylation persisted for less than 1 min. The increased phosphorylation of the Mr 96,000 protein also occurred within the first min but it persisted for at least 10 min. However, removal of the muscarinic agonist, carbachol, resulted in the rapid dephosphorylation of this protein. When the plasma membranes were purified, the Mr 96,000 protein was phosphorylated by ATP in the presence of Na+ and Mg2+. It was dephosphorylated by K+. This proves that the Mr 96,000 dalton protein is the alpha-subunit of the (Na+ + K+)-ATPase.
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PMID:Phosphorylation of the alpha-subunit of (Na+ + K+)-ATPase by carbachol in tissue slices and the role of phosphoproteins in stimulus-secretion coupling. 302 97

Na+,K+-ATPase activity was monitored by measuring ouabain-sensitive K+-dependent p-nitrophenylphosphatase (p-NPPase) activity in rat submandibular gland slices. Carbachol (carbamylcholine chloride) stimulated the p-NPPase activity in the presence of calcium but not in its absence. Carbachol activation of the enzyme was totally ouabain sensitive and could be blocked by atropine. A minimal requirement of sodium ion extracellularly was required for this carbachol stimulation. cGMP and its dibutyryl analogue was also effective in stimulating the enzyme activity, whereas, cAMP was ineffective. Calcium, however, was not required for cGMP activation of the p-NPPase activity. The result indicates that calcium is the second messenger and cGMP is the tertiary connection between cholinergic stimulation and Na+,K+-ATPase activation in these glands. Activation of Na+,K+-ATPase is postulated to be responsible for primary fluid formation.
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PMID:Activation of ouabain-sensitive p-nitrophenylphosphatase by carbachol and cGMP in rat submandibular gland. 625 41

In rat parotid glands the uptake of 2-[1-14C]aminoisobutyric acid (AIB), in vitro, depends on a Na concentration gradient between the intra- and extracellular medium. Ouabain (1 mM) which inhibits the Na+-K+-ATPase and a Na+ ionophore, monensin (which dissipates the Na+ gradient), both suppress this amino acid uptake. Carbachol (5 microM) (through muscarinic receptors) evokes a decrease in AIB uptake, and in the presence of 0.1 mM ouabain the cholinergic effect is enhanced. Ouabain alone (0.1 mM) very slightly depresses the [14C]AIB uptake. Neither 1 microM isoproterenol, nor 1 microM Ca2+ ionophore A23187, which affect the membrane potential in rat parotid acinar cells, modifies the AIB uptake. When the Ca is removed from the incubation medium, carbachol still evokes a small decreasing effect on AIB uptake. From these data we can suggest that the reduced AIB uptake (induced by the cholinergic agonist) appears to be related to a process dependent on variation of intracellular Na concentration that may be triggered by the cholinergic agonist.
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PMID:Effects of carbachol on extracellular Na-dependent AIB uptake in rat parotid gland. 743 73

Carbachol (CCh) stimulated K+ release from rat parotid acini. Treatment with the intracellular Ca2+ antagonist 8-(N,N-diethylamino)octyl-3,4,5-trimethoxybenzoate (TMB-8) or the intracellular Ca2+ chelator 1,2-bis(O-aminophenoxy)ethane-N,N,N',N'-tetraacetic acid (BAPTA) strongly suppressed the CCh-induced K+ release. Combined addition of the Ca2+ ionophore ionomycin and the microsomal Ca(2+)-ATPase inhibitor thapsigargin caused a rapid increase in cytosolic Ca2+ concentration ([Ca2+]i) and resulted in a marked release of K+. In the absence of extracellular Ca2+, CCh or a combination of ionomycin and thapsigargin caused a transient release of K+ which correlated well with the transient change in [Ca2+]i. On the other hand, phorbol 12-myristate 13-acetate (PMA) did not potentiate the CCh-induced K+ release, although the CCh-induced amylase release was significantly enhanced in the presence of PMA. Staurosporine, a protein kinase C-inhibitor, did not inhibit the CCh-induced K+ release, which was in contrast with its inhibitory effect on amylase release. These results suggest that the K+ release from rat parotid acini induced by CCh stimulation is mediated by a rapid increase in [Ca2+]i but is not associated with activation of protein kinase C. This signal pathway is different from that for amylase release where activation of protein kinase C plays an important role.
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PMID:Carbachol-induced potassium release in rat parotid acini: comparison of the roles of cytosolic Ca2+ and protein kinase C. 750 88

Effects of various receptor agonists on cytoplasmic Ca2+ concentration ([Ca2+]i) were examined in fura-2-loaded Mardin-Darby canine kidney (MDCK) monolayer cells. Carbachol (100 microM) increased [Ca2+]i which slightly declined to a sustained increase in [Ca2+]i. On the other hand, [Ca2+]i elevated by 100 nM bradykinin (BK) declined to a resting level of [Ca2+]i even in the presence of BK. After washout of BK, the subsequent addition of a higher concentration of BK (1 microM) caused a smaller increase in [Ca2+]i than that induced by 100 nM BK. Isoproterenol (100 microM) did not increase [Ca2+]i by itself but caused an transient increase in [Ca2+]i in the presence of 1 mM isobutyl-methylxanthine (IBMX). Prostaglandin E1 (1 microM) resulted in a slight increase in [Ca2+]i which was potentiatedin the presence of 1 mM IBMX. The microsomal Ca(2+)-ATPase inhibitor thapsigargin (100 nM) caused a sustained increase in [Ca2+]i. These results suggest that MDCK cells have multiple Ca2+ signaling pathways which may regulate epithelial cell functions.
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PMID:Multiple calcium signaling pathways in Mardin-Darby canine kidney cells. 753 28

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