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)

Basolateral plasma membranes from rat kidney cortex have been purified 40-fold by a combination of differential centrifugation, centrifugation in a discontinuous sucrose gradient followed by centrifugation in 8% percoll. The ratio of leaky membrane vesicles (L) versus right-side-out (RO) and inside-out (IO) resealed vesicles appeared to be L:RO:IO = 4:3:1. High-affinity Ca2+-ATPase, ATP-dependent Ca2+ transport and Na+/Ca2+ exchange have been studied with special emphasis on the relative transport capacities of the two Ca2+ transport systems. The kinetic parameters of Ca2+-ATPase activity in digitonin-treated membranes are: Km = 0.11 microM Ca2+ and Vmax = 81 +/- 4 nmol Pi/min X mg protein at 37 degrees C. ATP-dependent Ca2+ transport amounts to 4.3 +/- 0.2 and 7.4 +/- 0.3 nmol Ca2+/min X mg protein at 25 and 37 degrees C, respectively, with an affinity for Ca2+ of 0.13 and 0.07 microM at 25 and 37 degrees C. After correction for the percentage of IO-resealed vesicles involved in ATP-dependent Ca2+ transport, a stoichiometry of 0.7 mol Ca2+ transported per mol ATP is found for the Ca2+-ATPase. In the presence of 75 mM Na+ in the incubation medium ATP-dependent Ca2+ uptake is inhibited 22%. When Na+ is present at 5 mM an extra Ca2+ accumulation is observed which amounts to 15% of the ATP-dependent Ca2+ transport rate. This extra Ca2+ accumulation induced by low Na+ is fully inhibited by preincubation of the vesicles with 1 mM ouabain, which indicates that (Na+-K+)-ATPase generates a Na+ gradient favorable for Ca2+ accumulation via the Na+/Ca2+ exchanger. In the absence of ATP, a Na+ gradient-dependent Ca2+ uptake is measured which rate amounts to 5% of the ATP-dependent Ca2+ transport capacity. The Na+ gradient-dependent Ca2+ uptake is abolished by the ionophore monensin but not influenced by the presence of valinomycin. The affinity of the Na+/Ca2+ exchange system for Ca2+ is between 0.1 and 0.2 microM Ca2+, in the presence as well as in the absence of ATP. This affinity is surprisingly close to the affinity measured for the ATP-dependent Ca2+ pump. Based on these observations it is concluded that in isolated basolateral membranes from rat kidney cortex the Ca2+-ATPase system exceeds the capacity of the Na+/Ca2+ exchanger four- to fivefold and it is therefore unlikely that the latter system plays a primary role in the Ca2+ homeostasis of rat kidney cortex cells.
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PMID:Kinetic properties of the ATP-dependent Ca2+ pump and the Na+/Ca2+ exchange system in basolateral membranes from rat kidney cortex. 673 62

1. We have investigated the effect of the sarcoplasmic reticulum (SR) Ca(2+)-ATPase inhibitor, cyclopiazonic acid (CPA), on electromechanical coupling in the guinea-pig ureter. All experiments were performed in capsaicin-pretreated (10 microM for 15 min) ureters to prevent the release of sensory neuropeptides from afferent nerves. 2. In organ bath experiments, electrical field stimulation (EFS, 10 Hz for 1 s, 5 ms pulse width, 60 V) produced tetrodotoxin- (1 microM) resistant phasic contractions which were enhanced by Bay K 8644 (1 microM) and abolished by nifedipine (10-30 microM). 3. CPA (10 microM) enhanced the EFS-evoked contractions both in the absence and presence of Bay K 8644. The effect of CPA was concentration-dependent between 1 and 30 microM. The response to 10 microM CPA was biphasic: the maximal enhancement (58 +/- 3% increase) was observed within 10-20 min from CPA administration, followed by a decline to a new steady state (25 +/- 5% increase over baseline) at 50-60 min. The effect of CPA was reversed by washout. 4. Ryanodine (100 microM) produced a prompt enhancement of the EFS-evoked contractions of the guinea-pig ureter, which peaked at 42 +/- 3% increase over baseline; the co-administration of CPA (10 microM) and ryanodine (100 microM) produced a peak effect (60 +/- 8% enhancement) which was not different from that produced by CPA alone. With either ryanodine alone or ryanodine plus CPA, the enhancement of the EFS-induced contractions was biphasic, showing a time-course similar to that observed with CPA alone. Tetraethylammonium (10 mM) produced a significantly larger effect (93 +/- 13% increase over baseline) and its effect was sustained throughout the 60 min observation period. 5. In the presence of Bay K 8644, superfusion for 30 min with a low Na+ medium (60% of extracellular Na+ replaced by Li+ or choline) reduced the amplitude of EFS-evoked contractions by 20-35%. In both Li(+)- and choline-substituted media, spontaneous activity developed during superfusion with low Na+ Krebs solution which was suppressed by 10 microM nifedipine. CPA (10 microM) produced a marked enhancement of the EFS-evoked contractions in low-Na+ medium (both Li(+)- and choline-substituted) and this effect was sustained throughout the 60 min observation period. 6. In the absence of Bay K 8644, the response of the ureter smooth muscle to EFS is characterized by a refractory period: an interval of about 30 s was required between two applied stimuli to produce a second response comparable in size to that elicited by the first stimulus. CPA (10 micro M, 10-20 min before)markedly reduced the refractory period of the guinea-pig ureter to EFS.7. CPA (10 micro M, 30-60 min before) increased the phasic component of contraction produced by 80 m MKCl. The tonic component of the response to KCl was slightly but not significantly reduced by CPA,and a 'hump' in the tonic contraction was observed at 1-2 min from addition of KCl.8. In sucrose gap experiments, 10 micro M CPA produced a sustained depolarization of the membrane and reduced the latency between application of electrical stimuli and onset of the action potential; these effects were maintained throughout the 60 min superfusion with CPA. CPA also transiently prolonged the plateau phase of the action potential and increased the peak amplitude of contraction: these effects peaked at about 10-20 min from start of superfusion with CPA and then declined. At the peak of its enhancing effect on contraction amplitude, CPA prolonged the contractile phase of the contraction relaxation cycle.9.Superfusion with a low-Na, choline-substituted Krebs solution produced a reversible membrane depolarization. In the presence of Bay K 8644 (1 micro M), action potentials and phasic contractions were superimposed on this depolarization which were abolished by nifedipine (1O micro M).10. These findings indicate that CPA augments the excitability and affects the contraction-relaxation cycle of the smooth muscle of the guinea-pig ureter, implying a role for sarcoplasmic reticulum Ca2+-ATPase in the regulation of electromechanical coupling. The effects of CPA resemble those produced by ryanodine and the effect of the two agents on the amplitude of contractions is non-additive.It appears that following blockade of the CPA-sensitive SR Ca2+ pump, other mechanism(s) may come into action to reduce intracellular Ca2+. The Na+/Ca2+ exchanger could be involved in the compensatory changes responsible for the fading of the response to CPA.
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PMID:Effect of the Ca(2+)-ATPase inhibitor, cyclopiazonic acid, on electromechanical coupling in the guinea-pig ureter. 753 95

This study was performed to determine whether long-chain acylcarnitines, specifically palmitoylcarnitine, could account for the increase in intracellular Na+ ([Na+]i) during ischemia eliciting a secondary increase in intracellular Ca2+ ([Ca2+]i). Accordingly, whole cell voltage-clamp procedures and Na(+)-sensitive electrode recordings were employed simultaneously in isolated adult rabbit ventricular myocytes to assess the relationship between activation of a slow-inactivating Na+ current [INa(s)] and a potential increase in [Na+]i. The [Na+]i increased progressively from 8.4 +/- 1.2 to 22.5 +/- 1.8 mM (n = 8, P < 0.01) on exposure to palmitoylcarnitine (10 microM) accompanied by the activation of INa(s); both effects were reversible. Inhibition of INa(s) by tetrodotoxin (TTX, 10 microM) inhibited the increase in [Na+]i. Increasing [Na+]i to 20 mM without ethylene glycol-bis(beta-aminoethyl ether)-N,N,N',N'-tetraacetic acid (EGTA) to mimic effects measured with palmitoylcarnitine consistently elicited the transient inward current (Iti) and delayed afterdepolarizations (DADs). The percent inhibition (12.9 +/- 2.8%) of the Na(+)-K(+)-adenosinetriphosphatase pump activity by palmitoylcarnitine (10 microM) was much smaller than that induced by ouabain (10 microM, 90.5 +/- 2.5%), suggesting that this modest effect of palmitoylcarnitine on the pump is unlikely to account for the increase in [Na+]i induced by palmitoylcarnitine. Thus palmitoylcarnitine induces the INa(s) leading to an increase in [Na+]i, which elicits an increase in [Ca2+]i probably via the Na+/Ca2+ exchanger, thereby leading to the development of Iti and DADs.
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PMID:Palmitoylcarnitine increases [Na+]i and initiates transient inward current in adult ventricular myocytes. 761 93

Chronic renal failure (CRF) is associated with increased Ca2+ content of liver and reduced hepatic lipase activity. This has been attributed to a rise in cytosolic Ca2+ ([Ca2+]i) of the hepatocytes, but data on this issue are lacking. We examined the [Ca2+]i and ATP content of hepatocytes as well as the activity of Na(+)-K(+)-adenosinetriphosphatase (Na(+)-K(+)-ATPase), Ca(2+)-ATPase, and Na+/Ca2+ exchanger of hepatic membrane vesicles from normal rats, animals with 6 wk of CRF, CRF normocalcemic parathyroidectomized (CRF-PTX) rats, and CRF and normal animals treated with verapamil (CRF-V, normal-V). [Ca2+]i in hepatocytes of CRF rats was higher (281 +/- 7.4 nM) and ATP lower (6.4 +/- 1.8 nmol/mg protein) than in normal (209 +/- 5.3 nM; 12.5 +/- 0.89 nmol/mg protein), CRF-PTX (212 +/- 1.0 nM; 13.7 +/- 0.79 nmol/mg protein), normal-V (215 +/- 2.3 nM; 14.2 +/- 0.77 nmol/mg protein), and CRF-V rats (209 +/- 7.4 nM; 14.8 +/- 0.72 nmol/10(6) cells). The Na(+)-K(+)-ATPase, the maximal velocity of Ca(2+)-ATPase, and the activity of the Na+/Ca2+ exchanger were reduced, whereas the Michaelis constant of Ca(2+)-ATPase was increase in CRF rats compared with the other four groups of rats. The values in the latter groups were not different.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Chronic renal failure increases cytosolic Ca2+ of hepatocytes. 763 86

The membrane of the myelinated axon expresses a rich repertoire of physiologically active molecules: (1) Voltage-sensitive NA+ channels are clustered at high density (approximately 1,000/microns 2) in the nodal axon membrane and are present at lower density (< 25/microns 2) in the internodal axon membrane under the myelin. Na+ channels are also present within Schwann cell processes (in peripheral nerve) and perinodal astrocyte processes (in the central nervous system) which contact the Na+ channel-rich axon membrane at the node. In some demyelinated fibers, the bared (formerly internodal) axon membrane reorganizes and expresses a higher-than-normal Na+ channel density, providing a basis for restoration of conduction. The presence of glial cell processes, adjacent to foci of Na+ channels in immature and demyelinated axons, suggests that glial cells participate in the clustering of Na+ channels in the axon membrane. (2) "Fast" K+ channels, sensitive to 4-aminopyridine, are present in the paranodal or internodal axon membrane under the myelin; these channels may function to prevent reexcitation following action potentials, or participate in the generation of an internodal resting potential. (3) "Slow" K+ channels, sensitive to tetraethylammonium, are present in the nodal axon membrane and, in lower densities, in the internodal axon membrane; their activation produces a hyperpolarizing afterpotential which modulates repetitive firing. (4) The "inward rectifier" is activated by hyperpolarization. This channel is permeable to both Na+ and K+ ions and may modulate axonal excitability or participate in ionic reuptake following activity. (5) Na+/K(+)-ATPase and (6) Ca(2+)-ATPase are also present in the axon membrane and function to maintain transmembrane gradients of Na+, K+, and Ca2+. (7) A specialized antiporter molecule, the Na+/Ca2+ exchanger, is present in myelinated axons within central nervous system white matter. Following anoxia, the Na+/Ca2+ exchanger mediates an influx of Ca2+ which damages the axon. The molecular organization of the myelinated axon has important pathophysiological implications. Blockade of fast K+ channels and Na+/K(+)-ATPase improves action potential conduction in some demyelinated axons, and block of the Na+/Ca2+ exchanger protects white matter axons from anoxic injury. Modification of ion channels, pumps, and exchangers in myelinated fibers may thus provide an important therapeutic approach for a number of neurological disorders.
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PMID:Molecular dissection of the myelinated axon. 767 65

This study was undertaken to characterize differences in Ca2+ homeostasis between small and large ovine luteal cells. Although increasing extracellular pH (pHex) resulted in increases in intracellular calcium ([Ca2+]in) in both cell types, the large cells exhibited a greater sensitivity, suggesting that distinct [Ca2+]in regulatory mechanisms with distinct pH optima are operating in the two cell types. The sarcoplasmic/endoplasmic reticulum Ca(2+)-ATPase inhibitors thapsigargin (TG) and cyclopiazonic acid (CPA) increased [Ca2+]in in both cell types. Treatment of small cells with CPA resulted in transient increases in [Ca2+]in, whereas CPA produced sustained increases in [Ca2+]in in large cells. In small cells, pretreatment with CPA prevented further increases in [Ca2+]in in response to TG and vice versa. In large cells, TG pretreatment precluded further increases in [Ca2+]in with either prostaglandin F2 alpha (PGF2 alpha) or CPA. In contrast, after CPA pretreatment, PGF2 alpha or TG induced further increases in [Ca2+]in in large cells. This suggests that a TG-sensitive, CPA-insensitive Ca2+ pool is present in large cells but not in small cells. Neither Na+ removal nor KCl addition affected [Ca2+]in in either cell type, indicating that neither the Na+/Ca2+ exchanger nor voltage-dependent Ca2+ channels are involved in Ca2+ homeostasis in these cells. Addition of the calcium antagonist, LaCl3 (La3+), produced a gradual increase in [Ca2+]in in large cells but no changes in [Ca2+]in in small cells. Additionally, treatment with increasing concentrations of 4-bromo-A23187 resulted in titratable increases in [Ca2+]in that are greater in large than small cells, suggesting that small cells possess a higher Ca(2+)-buffering capacity than large cells. Progesterone secretion by large cells was significantly inhibited at alkaline pHex. In the presence of PGF2 alpha, progesterone secretion exhibited a distinct pH optimum of 7.0. In contrast, pHex did not affect secretion of progesterone in small cells under any of the conditions tested. TG, CPA, and La3+ all reduced secretion of progesterone in large, but not small, cells. These results demonstrate that ovine large and small luteal cells differ in regulation of [Ca2+]in homeostasis, and that treatments that increase [Ca2+]in decrease progesterone secretion in large cells but have no effect in small cells.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Differential regulation of Ca2+ homeostasis in ovine large and small luteal cells. 795 33

We have investigated the distribution of the sarcolemmal Ca2+ transporters in hamster and dog ventricular myocytes by immunocytochemical and membrane fractionation techniques. The data suggest that the DHP receptor alpha 1 subunit and the Na+/Ca2+ exchanger are present in surface sarcolemma as well as T-tubule membranes located at the cardiac dyads. Compared with these Ca2+ transporters, the sarcolemmal Ca(2+)-ATPase is much less abundant in the latter fraction. Thus the sarcolemmal Ca(2+)-ATPase seems to be located predominantly in surface sarcolemma.
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PMID:Ca(2+)-ATPase distributes differently in cardiac sarcolemma than dihydropyridine receptor alpha 1 subunit and Na+/Ca2+ exchanger. 795 65

Regulation of cytosolic Ca2+ and cytosolic Na+ is critical for lymphocyte cation homeostasis and function. To examine the influence of cytosolic Na+ on Ca2+ regulation in human peripheral blood lymphocytes, Ca2+ entry and cytosolic Ca2+ (measured with fura-2) were monitored in cells in which cytosolic Na+ was increased and/or the Na+ gradient was decreased by reduction of external Na+ concentration. Ouabain-treated cells (0.1 mM for 30 min at 37 degrees C), suspended in Na(+)-free medium, showed a 30-65% increase in Ca2+ uptake compared to cells in 140 mM Na+ medium. Enhanced Ca2+ influx was entirely dependent on ouabain pretreatment and reversal of the Na+ gradient. Na pump inhibition or Na ionophore addition and subsequent exposure to Na(+)-free medium resulted in a sustained elevation of cytosolic Ca2+. As preincubation of cells in Ca(2+)-free medium further enhanced the ouabain-dependent increase in cytosolic Ca2+, the effects of the microsomal Ca(2+)-ATPase inhibitor thapsigargin on Ca2+ influx and cytosolic Ca2+ were studied. Thapsigargin stimulated Ca2+ entry following ouabain pretreatment and reversal of the Na+ gradient; the effects of thapsigargin were retained in the presence of LaCl3, a potent inhibitor of store-dependent calcium influx pathways. These results show lymphocytes demonstrate Na+/Ca2+ exchange activity and suggest the Na+/Ca2+ exchanger modulates cytosolic Ca2+ following intracellular Ca2+ store depletion.
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PMID:Na+/Ca2+ exchange-mediated calcium entry in human lymphocytes. 796 46

In this study the relationship between sarcolemmal free cholesterol content and intracellular calcium ion concentration ([Ca2+]i) was explored. In cultured neonatal rat cardiomyocytes the cellular free cholesterol content was modulated by treatment with liposomes. Using cholesterol-rich or cholesterol-free liposomes, sarcolemmal free cholesterol content was raised or diminished, respectively. An increased sarcolemmal free cholesterol content resulted in a decreased sarcolemmal fluidity, whereas cholesterol depletion resulted in an increase in sarcolemmal fluidity. Cholesterol enrichment was associated with an increased [Ca2+]i, while cholesterol depletion resulted in a decreased [Ca2+]i. The membrane mobilizing agent 2-(2-methoxyethoxy)ethyl 8-(cis-2-c-octylcyclopropyl)-octanoate (A2C) caused an increase in sarcolemmal fluidity, and an increased [Ca2+]i. Thus, although sarcolemmal cholesterol depletion as well as A2C treatment increased sarcolemmal fluidity, their effects on [Ca2+]i are opposite. These results indicate that the effect of sarcolemmal free cholesterol content on [Ca2+]i is not mediated by sarcolemmal fluidity. The mechanisms responsible for the observed results are: (i) activated Ca2+ channels when the sarcolemma is enriched with cholesterol, (ii) most likely a stimulated Ca(2+)-ATPase activity when the sarcolemma is depleted of cholesterol, and (iii) inhibited Na+/Ca2+ exchanger activity when A2C is incorporated in the sarcolemma.
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PMID:The effect of sarcolemmal cholesterol content on intracellular calcium ion concentration in cultured cardiomyocytes. 805 87

Furazolidone is a nitrofuran antibiotic that causes dilated cardiomyopathy in turkeys and chicks and serves as an important model of human dilated cardiomyopathy. The mechanism by which furazolidone produces cardiac injury remains unknown. We investigated the hypothesis that furazolidone alters Ca2+ homeostasis in cardiac muscle cells. Myocytes harvested from 7-day-old chick embryos were treated with furazolidone (0.02, 0.1, and 1 mM) for 24-52 h and then coloaded with seminaphthorhodafluor-1 (SNARF 1) and fura 2 to measure simultaneously intracellular pH (pHi) and intracellular Ca2+ concentration ([Ca2+]i), respectively. Furazolidone did not affect steady-state [Ca2+]i levels in cardiac myocytes. Na+ removal was associated with a rapid increase in [Ca2+]i due to the Na+/Ca2+ exchanger, which was similar in control and furazolidone-treated cells. The rate of [Ca2+]i recovery after Na+ removal was significantly increased in the furazolidone-treated cells compared with controls. In most cells, recovery from Ca2+ load is accomplished by the activity of Ca(2+)-adenosinetriphosphatases (ATPases). Thapsigargin, inhibitor of sarcoplasmic reticulum Ca(2+)-ATPase, prevented the furazolidone-induced changes. These results demonstrate that furazolidone increases the activity of thapsigargin-sensitive Ca(2+)-ATPase without affecting Na+/Ca2+ exchange. These data enhance our understanding of the mechanism of furazolidone-induced injury in cardiac myocytes and may be useful in determining mechanisms of injury in dilated cardiomyopathy.
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PMID:Furazolidone increases thapsigargin-sensitive Ca(2+)-ATPase in chick cardiac myocytes. 806 29


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