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

1. The calcium channel antagonists verapamil (100 microM) and nifedipine (100 microM) inhibited twitch response and KCl induced hypercontractility in malignant hyperpyrexia (MH)-susceptible porcine skeletal muscle. These calcium channel antagonists did not effect hypercontractility induced by 3% halothane or 2 mM caffeine. 2. The calcium channel agonist BAY K 8644 (50 microM) induced contracture in MH-susceptible muscle but did not potentiate contracture response induced by 2 mM caffeine or 3% halothane. BAY K 8644 did not increase the resting tension of control muscle or increase the sensitivity of control muscle to 4 mM caffeine, 3% halothane or 80 mM KCl. 3. The sarcoplasmic reticulum (SR) from MH-susceptible and control porcine skeletal muscle was separated into vesicular fractions enriched in the membrane elements of the terminal cisternae and longitudinal tubules. 4. Verapamil and diltiazem [which has been previously shown to inhibit the hypercontractility of MH-susceptible porcine muscle to caffeine, halothane and KCl (Foster and Denborough, 1989 Br. J. Anaesth. 62, 566-572)] did not effect Ca2+ uptake or Ca(2+)-dependent ATPase activities of SR longitudinal tubule membranes, from MH-susceptible or control muscle. These calcium channel antagonists did not effect Ca2+ release from terminal cisternae preparations. 5. The skeletal muscle relaxant dantrolene inhibited Ca2+ efflux and equilibrium-Ca2+ exchange associated with the terminal cisternae membrane of MH-susceptible and control skeletal muscle. 6. Calcium channel antagonists modify Ca2+ fluxes in MH-susceptible and control muscle by acting at a site distal to the SR. Calcium channel antagonists may inhibit contractile response by modifying events of excitation-contraction coupling associated with the voltage sensor molecule (dihydropyridine-receptor) of the transverse-tubule membrane, whereas dantrolene directly acts on the terminal cisternae membrane to inhibit Ca2+ efflux and equilibrium Ca2+ exchange. Different calcium channel antagonists seem to modify the voltage-sensor mechanism in different ways in MH-susceptible muscle. 7. An abnormality in the coupling mechanism of the voltage sensor-SR calcium release channel may exist in MH-susceptible muscle. This dysfunction may be an adaptation to the elevated levels of myoplasmic Ca2+ and/or the molecular defect described in the Ca2+ release channel of the SR of MH-susceptible porcine muscle. In view of these results it is unlikely that nifedipine or verapamil would be of therapeutic value for the treatment of MH.
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PMID:The effect of calcium channel antagonists and BAY K 8644 on calcium fluxes of malignant hyperpyrexia-susceptible muscle. 768 90

Gentamicin causes isolated, reversible calciuria in rats by an unknown mechanism. We hypothesized that gentamicin calciuria is related to nonantibacterial properties that may interfere with transtubular calcium transport (calcium channel blockade, Na,K-ATPase inhibition or competition with calcium for binding to the brush-border membrane). The calciuric effect of gentamicin was compared to the calcium channel blockers lanthanum and cobalt, the Na,K-ATPase inhibitor ouabain and the polycation aprotinin (which competes with gentamicin for brush-border membrane binding). Although gentamicin 0.02 mmol/kg caused a 6-8-fold increase in urine calcium concentration, none of the other agents was calciuric. We also found that the calciuric effects of gentamicin and furosemide were additive, whereas the noncalciuric diuretic chlorothiazide had no effect on gentamicin calciuria. We also determined the effect of poly-L-aspartic acid (PAA), which binds gentamicin and prevents nephrotoxicity. PAA caused isolated calciuria similar in magnitude and character to gentamicin. However, PAA pretreatment decreased the magnitude of gentamicin calciuria to insignificance. PAA pretreatment did not prevent furosemide calciuresis. These results indicate that: 1) gentamicin and furosemide calciuria are caused by different mechanisms; 2) gentamicin calciuria is probably not mediated by calcium channel blockade, Na,K-ATPase inhibition or displacement of brush-border membrane-bound calcium; 3) gentamicin and PAA calciuria may reflect interference with intracellular events related to transtubular calcium transport.
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PMID:Effects and interactions of gentamicin, polyaspartic acid and diuretics on urine calcium concentration. 771 77

We characterized Ca2+ entry in rat aortic smooth muscle cells (SMCs) maintained in primary culture by measuring uptake of 45Ca2+ or Mn2+ from a normal balanced salt solution and the extracellular Ca(2+)-induced increase in the intracellular Ca2+ concentration ([Ca2+]i) in a medium [high pH (pH 8.8)/high Mg2+ (20 mM) medium containing a sarcoplasmic reticulum Ca(2+)-ATPase inhibitor, thapsigargin] that inhibits removal of Ca2+ from the cytoplasm. Such measurements in the presence or absence of a dihydropyridine (DHP) calcium channel antagonist (PN200-110) or hyperpolarizing agent (valinomycin) revealed that DHP-sensitive voltage-gated Ca2+ channels (VGCCs) are activated in these SMCs under resting conditions and that DHP-sensitive Ca2+ entry occurs mostly via these VGCCs. We found that receptor stimulation by endothelin-1 in these SMCs resulted in activation of neither DHP-sensitive nor -insensitive Ca2+ entry, but rather resulted in marked suppression of the former. Utilizing the DHP-sensitive extracellular Ca(2+)-induced increase in [Ca2+]i as a monitor of activity of the DHP-sensitive VGCCs, we investigated the effects of protein kinase activators and phosphatase inhibitors on the regulation of these VGCCs. We found that the DHP-sensitive VGCCs were inhibited by endothelin-1 through the activation of protein kinase C. We also found that they were inhibited by 8Br-cGMP, okadaic acid, and calyculin A.
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PMID:Regulation of Ca2+ entry in rat aortic smooth muscle cells in primary culture. 782 43

In recent years, an electrogenic 2Na+/1H+ antiporter has been identified in a variety of invertebrate epithelial brush-border membranes of gut, kidney and gill tissues. The antiporter differs significantly in its physiological properties from the electroneutral 1Na+/1H+ antiporter proposed for vertebrate cells. In all invertebrate cells examined, the antiporter displayed a 2:1 transport stoichiometry, responded to an induced transmembrane potential and exhibited a high binding affinity for the divalent cation Ca2+, which acted as a competitive inhibitor of Na+ transport. A monoclonal antibody specific for the crustacean electrogenic antiporter inhibited 2Na+/1H+ exchange, but was without effect on Na(+)-dependent D-glucose transport. Immunoreactivity was localized at hepatopancreatic brush-border and vacuolar membranes, antennal gland coelomosac podocytes and posterior gill epithelial cells-all locations were published reports described unique cation exchange kinetics. Significant fractions of Ca2+ transport into invertebrate cells across brush-border membranes occurred by an electrogenic, amiloride-sensitive exchange process, probably by the 2Na+/1H+ antiporter, and this transport was markedly inhibited by exogenous zinc and cadmium. A recently identified electroneutral, amiloride-sensitive, hepatopancreatic epithelial basolateral Na+/H+ antiporter was uninfluenced by the brush-border monoclonal antibody, exhibited an apparent 1:1 transport stoichiometry and possessed a minimal divalent cation specificity. Calcium transport at this epithelial pole occurred by the combination of a Ca2+/Na+ antiporter, an ATP-dependent Ca(2+)-ATPase and a verapamil-sensitive calcium channel. These crustacean brush-border and basolateral transporters may play significant roles in calcification and heavy metal detoxification.
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PMID:Role of the invertebrate electrogenic 2Na+/1H+ antiporter in monovalent and divalent cation transport. 782 31

Whether sarcolemmal (SL) calcium handling is altered in endstage heart failure produced by chronic rapid pacing is not known. To investigate this we paced 7 rabbits at a rate of 400 beats/min for 35 +/- 11 days. 6 animals served as non-paced controls. Purified left ventricular SL membranes were then prepared and tested for [3H]-nitrendipine binding and (Ca(2+) + Mg2+)-dependent ATPase (Ca(2+)-pump) activity. Results show a 50% reduction in calcium channel antagonist binding sites with Bmax values reduced from 450 +/- 40 to 230 +/- 8 fmoles/mg protein in response to chronic rapid pacing (P < 0.01). This change was accompanied by a modest decrease in Kd from 0.29 +/- 0.09 to 0.22 +/- 0.03 nM (not significant). Vmax values for the SL Ca(2+)-pump ATPase were decreased from 387 to 164 nmoles/mg protein/min (P < 0.01) with KCa2+ values reduced from 0.91 to 0.28 microM Ca2+ (P < 0.05) in response to tachycardia induced failure as compared to controls. ATPase activity in both groups was very sensitive to 25 microM calmidazolium and 5 microM vanadate. Results from this study indicate that both a reduction in SL calcium channel density and decrease in SL Ca(2+)-pump ATPase activity are evident in tachycardia heart failure. We conclude that sarcolemmal calcium handling is altered in heart failure induced by chronic rapid pacing and that such changes may contribute to systolic dysfunction associated with this model to heart failure.
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PMID:Altered sarcolemmal calcium channel density and Ca(2+)-pump ATPase activity in tachycardia heart failure. 785 49

1. This investigation set out to use 23Na n.m.r. spectroscopy to measure changes in intracellular levels of sodium in isolated suspensions of rat proximal tubules. The effects of temperature, an inhibitor of the sodium pump and known natriuretic drugs on intracellular sodium content of such tubular preparations were measured and compared with calcium channel antagonists where action at this level is unclear. 2. Rat kidneys were perfused with collagenase, roughly chopped, subjected to mechanical dispersion and washed to remove all traces of the enzyme. The proximal tubules were then purified and concentrated by Percoll density gradient centrifugation and then resuspended in buffer containing dysprosium tripolyphosphate shift reagent. 3. Distinct peaks corresponding to intracellular and extracellular sodium signals were observed when the tubules were placed into the n.m.r. spectrometer. As the temperature of the suspension rose to 37 degrees C, there was an exponential decrease in sodium content, with a decay constant of 0.15 +/- 0.02 min-1, which reached a stable level within 20 to 25 min. Addition of ouabain, 10(-3) M, resulted in a significant (P < 0.01) 30% increase in intracellular sodium content within 5 min which peaked at 70% 20 min later. Although acetazolamide (10(-3) M) significantly (P < 0.01) increased intracellular sodium content by 45%, amlodipine (10(-4) M) had no effect. 4. These data show that changes in the activity of the Na+/K+/ATPase have a considerable influence on the intracellular levels of sodium in proximal tubule cells. Inhibition of carbonic anhydrase activity resulted in a rise in intracellular sodium content which is compatible with its action to reduce the turnover rate of the Na+/(HCO3-)3 symporter. The lack of effect of amlodipine was consistent with the suggestion that it does not have a direct action on the sodium handling processes at the level of the proximal tubule.
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PMID:The influence of acetazolamide and amlodipine on the intracellular sodium content of rat proximal tubular cells. 792 16

The effect of calcium channel blocker, verapamil (0.5-50 microM), has been studied in vitro in relation to certain spermatozoal functions in human ejaculates. Disruptive changes in the head and tail region of the spermatozoa, separation of heads from tails and coiling of the tail were observed. Motility was considerably reduced, while the pattern of motility also changed from rapid, linear progression to slow or sluggish linear or non-linear movement and finally to non-progressive motility, or even immotility. Verapamil significantly inhibited the influx of extracellular Ca2+. The study of kinetic effects further revealed a reduction in the maximum uptake velocity, but no change in the apparent substrate affinity constant. A highly significant decrease in Ca(2+)-dependent ATPase activity was also noted. In order to see whether this drug had any cytotoxic effect, presumably through lipid peroxides, thiobarbituric acid-reactive substances were measured. Verapamil produced an increase in the formation and release of malonyldialdehyde. The level of membrane cholesterol and phospholipid in the spermatozoa was also lowered considerably. The potential of such a calcium channel blocking agent in the designing of a male contraceptive programme is discussed.
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PMID:Calcium channel antagonist verapamil modulates human spermatozoal functions. 809 Oct 14

The organic cosolvents propylene glycol (PG) and polyethylene glycol 400 (PEG 400) have previously been shown to differ in their potential to cause muscle damage following im injection. PG was found to be more myotoxic than PEG 400, with indirect implications of the role of cytosolic calcium in mediating this damage. In the present study, the direct effects of these cosolvents were investigated on the sarcoplasmic reticulum (SR), the major intracellular muscle membrane that mobilizes calcium. The passive permeability of isolated SR microsomal vesicles to calcium was not affected by 5.3 and 10.5% (v/v) PG and PEG 400. At 10.5% (v/v), a concentration of the organic cosolvent that would not be unexpected at the injection site, PEG 400 stimulated calcium uptake by 40 and 140% in longitudinal tubular-derived and terminal cisternal-derived vesicles, respectively, without significantly altering the ATP hydrolytic activity of the calcium pump. The calcium pumping efficiency (Ca2+/ATP coupling ratio) was therefore also enhanced. On the other hand, 10.5% (v/v) PG did not significantly alter either calcium uptake or ATPase activity of the pump. PG stimulated calcium efflux from only the terminal cisternae vesicles via a pathway indicative of the ryanodine-sensitive calcium channel, as demonstrated by inhibition of PG-induced efflux by millimolar Mg2+. These results are consistent with multiple interactions of cosolvents with proteins in the membrane bilayer, with the distinction that the two cosolvents differentially influence the calcium pump and release channel, particularly at the terminal cisternae, where there is rapid change of calcium level during excitation-contraction coupling. These data provide further evidence for the role of calcium in mediating organic cosolvent-induced muscle damage. In addition, they provide a possible explanation for the myoprotective effect of PEG 400 (compared to PG) as a result of increased myoplasmic calcium removal and reduced calcium release.
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PMID:Solvent-dependent influences on skeletal muscle sarcoplasmic reticulum calcium uptake and release. 812 89

Previous studies have established that the mammalian sperm acrosome reaction (AR) is dependent upon an influx of extracellular Ca2+, but the involvement of a mobilizable store of intracellular Ca2+ has not been shown. In many other cells, the endoplasmic reticulum is the site of such a Ca(2+)-store. Here, we show that thapsigargin, a highly specific inhibitor of the endoplasmic reticulum Ca(2+)-ATPase Ca(2+)-pump (and thus a mobilizer of intracellular Ca2+) in other cells, can initiate the AR in capacitated human sperm. Thapsigargin at concentrations from 50-500 nM significantly increased the AR to the same extent when incubated with capacitated sperm for 1 min (assayed by indirect immunofluorescence). Transmission electron microscopy confirmed the occurrence of normal morphology in the AR initiated by thapsigargin. Thapsigargin (200 nM) did not initiate the AR in noncapacitated sperm. Initiation of the AR by thapsigargin apparently requires an influx of Ca2+ since 1 min preincubation with the calcium channel blockers La3+ (250 microM) or Ni2+ (250 microM) prior to addition of thapsigargin completely inhibits AR-initiation. Mobilization of an intracellular Ca(2+)-store by thapsigargin in capacitated human sperm may lead to an influx of extracellular Ca2+ and subsequently the AR. Putative sites for thapsigargin-sensitive intracellular Ca(2+)-stores in human sperm include the cytoplasmic droplet, the sperm nucleus and the acrosome.
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PMID:Initiation of the human sperm acrosome reaction by thapsigargin. 822 70

In vitro addition of 0.1-100 mcM of a calcium channel blocker, nifedipine, resulted in a significant non-competitive inhibition in the uptake of Ca++. The activity of Ca-dependent ATPase was also decreased. Motility of the spermatozoa was significantly arrested following incubation with different doses of the drug at 37 degrees Celsius for different durations. The pattern of motility changed within 2 hours from rapid and linear progression to slow or sluggish linear or non-linear movement and finally to non-progressive motility or even immotility. Scanning electron microscopic studies revealed disruptive changes in the head as well as tail region and coiling of spermatozoa after nifedipine treatment. An increase in the formation and release of malonyldialdehyde was observed following nifedipine addition in a dose-dependent fashion. The membrane cholesterol and phospholipid contents were considerably lowered in the treated samples. The potential of such calcium channel blocking agent in the designing of a male contraceptive program is discussed.
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PMID:The effect of nifedipine, a calcium channel blocker, on human spermatozoal functions. 827 95


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