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:3.1.3.1 (alkaline phosphatase)
47,916 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In isolated erythrocyte membranes, increasing the free Mg2+ concentration from 0.5 to 10 mM progressively activates the membrane-bound phosphatidylinositol (PtdIns) kinase and leads to the establishment of a new equilibrium with higher phosphatidylinositol 4-phosphate (PtdIns4P) and lower PtdIns concentrations. The steady-state turnover of the phosphomonoester group of PtdIns4P also increases at high Mg2+ concentrations, indicating a simultaneous activation of PtdIns4P phosphomonoesterase by Mg2+. Half-maximum inhibition of PtdIns kinase occurs at 10 microM free Ca2+ in the presence of physiological free Mg2+ concentrations. Increasing free Mg2+ concentrations overcome Ca2+ inhibition of PtdIns kinase. In the presence of Ca2+, calmodulin activates Ca2+-transporting ATPase 5-fold, but does not alter pool size and radiolabelling of PtdIns4P. In intact erythrocytes, adding EGTA or EGTA plus Mg2+ and the ionophore A23187 to the external medium does not exert significant effects on concentration and radiolabelling of polyphosphoinositides when compared with controls in the presence of 1.4 mM free Ca2+.
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PMID:Influence of Ca2+ and Mg2+ on the turnover of the phosphomonoester group of phosphatidylinositol 4-phosphate in human erythrocyte membranes. 282 96

Inositol 1,4,5-trisphosphate (Ins-1,4,5-P3) is an important second-messenger molecule that mobilizes Ca2+ from intracellular stores in response to the occupancy of receptor by various Ca2+-mobilizing agonists. The fate of Ins-1,4,5-P3 is determined by two enzymes, a 3-kinase and a 5-phosphomonoesterase. The first enzyme converts Ins-1,4,5-P3 to Ins-1,3,4,5-P4, whereas the latter forms Ins-1,4-P2. Recent studies suggest that Ins-1,3,4,5-P4 might modulate the entry of Ca2+ from an extracellular source. In the current report, we describe the partial purification of the 3-kinase [approximately 400-fold purified, specific activity = 0.12 mumol/(min.mg)] from the cytosolic fraction of bovine brain and studies of its catalytic properties. We found that the 3-kinase activity is significantly activated by the Ca2+/calmodulin complex. Therefore, we propose that Ca2+ mobilized from endoplasmic reticulum by the action of Ins-1,4,5-P3 forms a complex with calmodulin, and that the Ca2+/calmodulin complex stimulates the conversion of Ins-1,4,5-P3, an intracellular Ca2+ mobilizer, to Ins-1,3,4,5-P4, an extracellular Ca2+ mobilizer. A rapid assay method for the 3-kinase was developed that is based on the separation of [3-32P]Ins-1,3,4,5-P4 and [gamma-32P]ATP by thin-layer chromatography. Using this new assay method, we evaluated kinetic parameters (Km for ATP = 40 microM, Km for Ins-1,4,5-P3 = 0.7 microM, Ki for ADP = 12 microM) and divalent cation specificity (Mg2+ much greater than Mn2+ greater than Ca2+) for the 3-kinase. Studies with various inositol polyphosphates indicate that the substrate-binding site is quite specific to Ins-1,4,5-P3. Nevertheless, Ins-2,4,5-P3 could be phosphorylated at a velocity approximately 1/20-1/30 that of Ins-1,4,5-P3.
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PMID:Catalytic properties of inositol trisphosphate kinase: activation by Ca2+ and calmodulin. 282 70

The enamel organ of the growing rat incisor was fixed with a mixture of formaldehyde and glutaraldehyde and processed for ultracytochemical demonstration of Ca- and Mg-activated membrane ATPase by a one-step lead technique at alkaline pH. To inhibit nonspecific alkaline phosphatase, 5 mM levamisole was added to the incubation media. Intense Ca- and Mg-ATPase activity was demonstrated in the cell surfaces of the secretory ameloblasts, except at the proximal and distal junctional complexes and the gap junctions in the lateral and basal cell surfaces. Deep plasma membrane invaginations at the proximal and distal parts of Tomes processes facing interrod- and rod-enamel growth regions exhibited the strongest enzymatic reaction. Mg-ATPase activity was also shown to be present in the plasma membranes of secretory ameloblasts but it was less intense than Ca-ATPase. Except for a slight reaction in the Golgi membranes, all other cell organelles of the secretory ameloblasts and the adjacent enamel matrix were free of enzymatic reaction. However, when the tissues were incubated in media lacking levamisole, a prominent enzymatic reaction was observed in the newly secreted enamel matrix of the rod and interrod growth regions as well as on the plasma membranes of the cells. In maturation ameloblasts of both ruffle-ended and smooth-ended types, a weak reaction for Ca- and Mg-ATPase was restricted to basal cell surfaces facing the papillary cell layer. In tissues incubated in media lacking levamisole, a variable deposition of reaction products was observed in the Golgi membranes, mitochondrial membranes, tubular elements of smooth endoplasmic reticulum in the ruffled border zone, and along the plasma membranes of the ruffled border. Throughout the secretory and maturation stages, a moderate and/or weak enzymatic reaction for both Ca- and Mg-ATPase was seen in the plasma membranes of the cells of the stratum intermedium and the papillary layer when incubated in media with levamisole. Omission of substrate ATP and/or the enzyme activator CaCl2 from the incubation media for Ca-ATPase produced a negative reaction in the tissues examined. When the calmodulin blocker trifluoperazine was administered to the rats intravenously, Ca-ATPase activity was almost completely abolished from the plasma membranes of secretory ameloblasts, but not of other cell types.
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PMID:Ultracytochemical demonstration of ATP-dependent calcium pump in ameloblasts of rat incisor enamel organ. 294 78

In a subcellular plasma membrane enriched fraction of bovine corneal epithelium, Ca2+ stimulated Mg2+ dependent ATPase activity was characterized. This membrane fraction was more than 5-fold and 4-fold enriched with 5'-nucleotidase and alkaline phosphatase activities, respectively, relative to the 100,000 X g pellet. With 250 microM ATP, maximum stimulation of a high affinity form of Ca2+ stimulated Mg2+ dependent ATPase activity was obtained with 1.7 microM free Ca2+. This activation required no exogenously added Mg2+ and was unaffected by either 0.1 mM ouabain, 3 microM ruthenium red, 20 mM sodium azide or 0.2 microgram/ml oligomycin. Exogenous calmodulin (6 microM) elicited a 53% increase in this activity which was completely inhibited by 300 microM trifluoperazine (TFP). These effects of calmodulin and TFP are consistent with the notion of a plasma membrane origin for this activity and also suggest that this activity could be a basis for the regulation of intracellular Ca2+ activity in the submicromolar range.
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PMID:Ca-stimulated Mg dependent ATPase activity in a plasma membrane enriched fraction of bovine corneal epithelium. 295 65

The brush-border membrane from the porcine small intestine possesses Ca2+-dependent ATPase activity. The Ca2+ stimulation of ATP hydrolysis by the membranes is biphasic with a high affinity (Km = 0.38 microM) and a low affinity (Km = 98.3 microM). Treatment of the membrane vesicles with n-heptylthioglucoside did not cause further increase of the Ca2+-ATPase activity. Mg2+ also stimulates the ATP hydrolysis in the absence of Ca2+ but decreases the Ca2+-ATPase activities at 0.59 and 200 microM free Ca2+. The Ca2+-ATPase activities are not inhibited by addition of vanadate, ouabain, sodium azide and alkaline phosphatase inhibitors (theophylline and L-phenylalanine), irrespective of the Ca2+ concentrations in medium. A specific calmodulin-inhibitor W-7 (up to 30 microM) also did not influence on the Ca2+-ATPase activities at 0.59 and 200 microM free Ca2+. The Ca2+-ATPase activities at 0.59 and 200 microM free Ca2+ show no specificity for ATP. ADP, GTP and CTP could also be used as substrates. From these results, it is suggested that the porcine intestinal brush-border membrane possesses Mg2+-independent Ca2+-ATPase activity and that the Ca2+-ATPase activities with biphasic responses for Ca2+ stimulation observed in the present study reside on the same protein. The physiological functions of the Ca2+-ATPase in the membranes, however, remain unknown at present.
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PMID:Ca2+-dependent ATP hydrolysis of the porcine intestinal brush-border membranes. 295 11

Using either inside-out vesicles (IOV) prepared from human erythrocytes or purified Ca2+-ATPase from the same source, the effects of protein kinase C (Ca2+/phospholipid-dependent enzyme) on Ca2+ transport and Ca2+-ATPase activity were measured. Incubation of IOV with protein kinase C in the presence, but not absence, of either 12-O-tetradecanoylphorbol-13-acetate or diolein led to a Ca2+-dependent stimulation of ATP-dependent calcium uptake. The effect was a 5-7-fold increase of Vmax without a significant change in the apparent Km for Ca2+. By comparison, the effect of calmodulin was a 14-fold stimulation of Vmax and a 4-fold reduction in apparent Km. The effect of protein kinase C and calmodulin on Ca2+ uptake were nearly additive. Stimulation of IOV Ca2+ transport by protein kinase C was entirely reversible by treatment of activated IOV with alkaline phosphatase. Incubation of purified Ca2+-ATPase with protein kinase C in the presence of 12-O-tetradecanoylphorbol-13-acetate or diolein led to a stimulation of Ca2+-dependent ATPase activity. These results indicate that protein kinase C stimulates the activity of the plasma membrane Ca2+ pump by a direct effect on the pump protein.
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PMID:Regulation of erythrocyte Ca2+ pump activity by protein kinase C. 296 1

During the aggregation and differentiation of amoebae of Dictyostelium discoideum, changes in free cytosolic Ca2+ appear to regulate a number of physiological processes. To understand the mechanisms regulating free intracellular Ca2+ in this organism, we have isolated and characterized an ATP/Mg2+-dependent, high-affinity Ca2+ pump. When homogenates of 2 h starved cells were fractionated on Percoll/KCl gradients, one peak of high-affinity Ca2+-pumping activity was detected. This activity was resolved from enzyme markers of the mitochondrion and the rough endoplasmic reticulum but it cosedimented with the plasma membrane marker, alkaline phosphatase. Further studies suggested that the pump was associated with 'inside-out' plasma membrane vesicles. Like plasma membrane Ca2+-transport ATPases from other systems, this isolated Ca2+ pump: (1) was Mg2+-dependent, (2) displayed a high specificity for ATP as an energy source, (3) exhibited a high affinity for free Ca2+ with a Km of 0.3 microM, and (4) was very sensitive to inhibition by vanadate (IC50 2 microM) but was unaffected by mitochondrial inhibitors, ouabain and Ca2+-channel blockers. Unlike plasma membrane Ca2+ pumps from most other systems, this enzyme appeared not to be regulated by calmodulin. During development, non-mitochondrial, vanadate-sensitive, high-affinity Ca2+-pumping activity in crude lysates remained relatively constant for at least 15 h. These observations suggest that this plasma membrane Ca2+ pump probably functions in Dictyostelium to maintain Ca2+ homeostasis by extruding free cytosolic Ca2+ from the cells.
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PMID:Isolation and characterization of a plasma membrane calcium pump from Dictyostelium discoideum. 296 24

In the present in-vitro study we investigated the possible role of the calmodulin-antagonistic drugs loperamide and calmidazolium in the regulation of transepithelial Ca2+ transport of human duodenum. Brush border membrane vesicles and basolateral membrane vesicles were simultaneously prepared from surgically resected pieces of morphologically intact human duodenum with a modified Percoll-gradient centrifugation method. Brush border and basolateral membrane vesicles were characterized using enzyme marker analysis and electron microscopy: alkaline phosphatase was enriched 20-fold in brush border membrane vesicles, whereas [Na+ + K+]-stimulated adenosine triphosphatase was enriched 15-fold in basolateral membrane vesicles. Calmodulin activity was determined by a specific radioimmunoassay after solubilizing brush border and basolateral membrane vesicles in 1% Triton X-100. In basolateral membrane vesicles, we found no calmodulin activity. In brush border membrane vesicles calmodulin activity was impaired by 50% after pre-incubation with loperamide or calmidazolium. We measured calcium, sodium, D-glucose and D-mannitol uptake with a rapid filtration technique. Before the transport experiments, brush border and basolateral membrane vesicles were pre-incubated with 5 microM loperamide or 5 microM calmidazolium for 60 min at 5 degrees C. In drug-pretreated, brush border membrane vesicles calcium uptake was significantly reduced after 1 min incubation (-25% +/- 5%, P less than 0.05); this effect was completely reversed in the presence of 5 microM calmodulin. In basolateral membrane vesicles, we found two Ca2+ transport systems: (1) Na+/Ca2+ exchange and (2) ATP-dependent Ca2+ transport. In basolateral membrane vesicles loperamide had no effect. Calmidazolium had no effect on Na+/Ca2+ exchange, but significantly inhibited ATP-dependent Ca2+ transport. This effect could not be reversed by calmodulin.
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PMID:Effect of two potent calmodulin antagonists on calcium transport of brush border and basolateral vesicles from human duodenum. 297 85

To demonstrate the effect of zinc and/or calcium deficiency on calmodulin concentration and also the antagonistic behavior of zinc and calcium in metabolism, four groups of eight rats each were provided the following diets in equal amounts: group I, the basic diet with 63 ppm zinc and 0.88% calcium; group II, the calcium-deficient diet (0.0043% calcium); group III, the zinc-deficient diet (1.1 ppm zinc); and group IV, the combined zinc/calcium-deficient diet. The zinc-deficient diet significantly reduced the zinc concentration in serum (72%), femur (65%), pancrease (34%), muscle (23%), testis (11%) and brain (7%), and elevated the calcium concentration in testis (19%) and brain (24%), but did not affect calcium concentration in serum, pancreas and muscle. Likewise, calcium deficiency reduced the calcium concentration in serum (56%), femur (40%), pancreas (16%), muscle (43%), testis (19%) and brain (24%), and elevated the zinc concentration in femur (22%), although the zinc concentration in serum, pancreas, muscle and testis remained unaffected. Combined zinc and calcium deficiency elevated both the zinc as well as the calcium concentration in serum, femur and muscle, as compared to zinc or calcium deficiency alone. The alkaline phosphatase activity was reduced by 52% during zinc deficiency and was elevated by a factor of 2.5 during calcium deficiency. The calmodulin concentrations in muscle, testis and brain, as determined by radioimmunoassay, were elevated during both zinc as well as calcium deficiency, although this elevation could not be confirmed in every case.
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PMID:Calmodulin, zinc and calcium concentration in tissues of zinc- and calcium-deficient rats. 298 Aug 2

The migration of intestinal epithelial cells from the crypts to the tips of villi is associated with progressive cell differentiation. The changes in Ca2+-ATPase activity and ATP-dependent Ca2+-transport rates in basolateral membranes from rat duodenum were measured during migration along the crypt-villus axis. In addition, vitamin D-dependent calcium-binding protein and calmodulin content were measured in homogenates of six cell populations which were sequentially derived from villus tip to crypt base. Alkaline phosphatase activity was highest at the tip of the villus (fraction I) and decreased more than 20-fold towards the crypt base (fraction VI). (Na+ + K+)-ATPase activity also decreased along the villus-crypt axis but in a less pronounced manner than alkaline phosphatase. ATP-dependent Ca2+-transport in basolateral membranes was highest in fraction II (8.2 +/- 0.3 nmol Ca2+/min per mg protein) and decreased slightly towards the villus tip and base (fraction V). The youngest cells in the crypt had the lowest Ca2+-transport activity (0.9 +/- 0.1 nmol Ca2+/min per mg protein). The distribution of high-affinity Ca2+-ATPase activity in basolateral membranes correlated with the distribution of ATP-dependent Ca2+-transport. The activity of Na+/Ca2+ exchange was equal in villus and crypt basolateral membranes. Compared to the ATP-dependent Ca2+-transport system, the Na+/Ca2+ exchanger is of minor importance in villus cells but may play a more significant role in crypt cells. Calcium-binding protein decreased from mid-villus towards the villus base and was undetectable in crypt cells. Calmodulin levels were equal along the villus-crypt axis. It is concluded that vitamin D-dependent calcium absorption takes primarily place in villus cells of rat duodenum.
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PMID:Distribution of Ca2+-ATPase, ATP-dependent Ca2+-transport, calmodulin and vitamin D-dependent Ca2+-binding protein along the villus-crypt axis in rat duodenum. 299


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